## @file # Generate AutoGen.h, AutoGen.c and *.depex files # # Copyright (c) 2007 - 2019, Intel Corporation. All rights reserved.
# Copyright (c) 2018, Hewlett Packard Enterprise Development, L.P.
# Copyright (c) 2019, American Megatrends, Inc. All rights reserved.
# # SPDX-License-Identifier: BSD-2-Clause-Patent # ## Import Modules # from __future__ import print_function from __future__ import absolute_import import Common.LongFilePathOs as os import re import os.path as path import copy import uuid from . import GenC from . import GenMake from . import GenDepex from io import BytesIO from .StrGather import * from .BuildEngine import BuildRule import shutil from Common.LongFilePathSupport import CopyLongFilePath from Common.BuildToolError import * from Common.DataType import * from Common.Misc import * from Common.StringUtils import * import Common.GlobalData as GlobalData from GenFds.FdfParser import * from CommonDataClass.CommonClass import SkuInfoClass from GenPatchPcdTable.GenPatchPcdTable import parsePcdInfoFromMapFile import Common.VpdInfoFile as VpdInfoFile from .GenPcdDb import CreatePcdDatabaseCode from Workspace.MetaFileCommentParser import UsageList from Workspace.WorkspaceCommon import GetModuleLibInstances from Common.MultipleWorkspace import MultipleWorkspace as mws from . import InfSectionParser import datetime import hashlib from .GenVar import VariableMgr, var_info from collections import OrderedDict from collections import defaultdict from Workspace.WorkspaceCommon import OrderedListDict from Common.ToolDefClassObject import gDefaultToolsDefFile from Common.caching import cached_property, cached_class_function ## Regular expression for splitting Dependency Expression string into tokens gDepexTokenPattern = re.compile("($|$|\w+| \S+\.inf)") ## Regular expression for match: PCD(xxxx.yyy) gPCDAsGuidPattern = re.compile(r"^PCD$.+\..+$$") # # Regular expression for finding Include Directories, the difference between MSFT and INTEL/GCC/RVCT # is the former use /I , the Latter used -I to specify include directories # gBuildOptIncludePatternMsft = re.compile(r"(?:.*?)/I[ \t]*([^ ]*)", re.MULTILINE | re.DOTALL) gBuildOptIncludePatternOther = re.compile(r"(?:.*?)-I[ \t]*([^ ]*)", re.MULTILINE | re.DOTALL) # # Match name = variable # gEfiVarStoreNamePattern = re.compile("\s*name\s*=\s*(\w+)") # # The format of guid in efivarstore statement likes following and must be correct: # guid = {0xA04A27f4, 0xDF00, 0x4D42, {0xB5, 0x52, 0x39, 0x51, 0x13, 0x02, 0x11, 0x3D}} # gEfiVarStoreGuidPattern = re.compile("\s*guid\s*=\s*({.*?{.*?}\s*})") ## Mapping Makefile type gMakeTypeMap = {TAB_COMPILER_MSFT:"nmake", "GCC":"gmake"} ## Build rule configuration file gDefaultBuildRuleFile = 'build_rule.txt' ## Build rule default version AutoGenReqBuildRuleVerNum = "0.1" ## default file name for AutoGen gAutoGenCodeFileName = "AutoGen.c" gAutoGenHeaderFileName = "AutoGen.h" gAutoGenStringFileName = "%(module_name)sStrDefs.h" gAutoGenStringFormFileName = "%(module_name)sStrDefs.hpk" gAutoGenDepexFileName = "%(module_name)s.depex" gAutoGenImageDefFileName = "%(module_name)sImgDefs.h" gAutoGenIdfFileName = "%(module_name)sIdf.hpk" gInfSpecVersion = "0x00010017" # # Template string to generic AsBuilt INF # gAsBuiltInfHeaderString = TemplateString("""${header_comments} # DO NOT EDIT # FILE auto-generated [Defines] INF_VERSION = ${module_inf_version} BASE_NAME = ${module_name} FILE_GUID = ${module_guid} MODULE_TYPE = ${module_module_type}${BEGIN} VERSION_STRING = ${module_version_string}${END}${BEGIN} PCD_IS_DRIVER = ${pcd_is_driver_string}${END}${BEGIN} UEFI_SPECIFICATION_VERSION = ${module_uefi_specification_version}${END}${BEGIN} PI_SPECIFICATION_VERSION = ${module_pi_specification_version}${END}${BEGIN} ENTRY_POINT = ${module_entry_point}${END}${BEGIN} UNLOAD_IMAGE = ${module_unload_image}${END}${BEGIN} CONSTRUCTOR = ${module_constructor}${END}${BEGIN} DESTRUCTOR = ${module_destructor}${END}${BEGIN} SHADOW = ${module_shadow}${END}${BEGIN} PCI_VENDOR_ID = ${module_pci_vendor_id}${END}${BEGIN} PCI_DEVICE_ID = ${module_pci_device_id}${END}${BEGIN} PCI_CLASS_CODE = ${module_pci_class_code}${END}${BEGIN} PCI_REVISION = ${module_pci_revision}${END}${BEGIN} BUILD_NUMBER = ${module_build_number}${END}${BEGIN} SPEC = ${module_spec}${END}${BEGIN} UEFI_HII_RESOURCE_SECTION = ${module_uefi_hii_resource_section}${END}${BEGIN} MODULE_UNI_FILE = ${module_uni_file}${END} [Packages.${module_arch}]${BEGIN} ${package_item}${END} [Binaries.${module_arch}]${BEGIN} ${binary_item}${END} [PatchPcd.${module_arch}]${BEGIN} ${patchablepcd_item} ${END} [Protocols.${module_arch}]${BEGIN} ${protocol_item} ${END} [Ppis.${module_arch}]${BEGIN} ${ppi_item} ${END} [Guids.${module_arch}]${BEGIN} ${guid_item} ${END} [PcdEx.${module_arch}]${BEGIN} ${pcd_item} ${END} [LibraryClasses.${module_arch}] ## @LIB_INSTANCES${BEGIN} # ${libraryclasses_item}${END} ${depexsection_item} ${userextension_tianocore_item} ${tail_comments} [BuildOptions.${module_arch}] ## @AsBuilt${BEGIN} ## ${flags_item}${END} """) ## Split command line option string to list # # subprocess.Popen needs the args to be a sequence. Otherwise there's problem # in non-windows platform to launch command # def _SplitOption(OptionString): OptionList = [] LastChar = " " OptionStart = 0 QuotationMark = "" for Index in range(0, len(OptionString)): CurrentChar = OptionString[Index] if CurrentChar in ['"', "'"]: if QuotationMark == CurrentChar: QuotationMark = "" elif QuotationMark == "": QuotationMark = CurrentChar continue elif QuotationMark: continue if CurrentChar in ["/", "-"] and LastChar in [" ", "\t", "\r", "\n"]: if Index > OptionStart: OptionList.append(OptionString[OptionStart:Index - 1]) OptionStart = Index LastChar = CurrentChar OptionList.append(OptionString[OptionStart:]) return OptionList # # Convert string to C format array # def _ConvertStringToByteArray(Value): Value = Value.strip() if not Value: return None if Value[0] == '{': if not Value.endswith('}'): return None Value = Value.replace(' ', '').replace('{', '').replace('}', '') ValFields = Value.split(',') try: for Index in range(len(ValFields)): ValFields[Index] = str(int(ValFields[Index], 0)) except ValueError: return None Value = '{' + ','.join(ValFields) + '}' return Value Unicode = False if Value.startswith('L"'): if not Value.endswith('"'): return None Value = Value[1:] Unicode = True elif not Value.startswith('"') or not Value.endswith('"'): return None Value = eval(Value) # translate escape character NewValue = '{' for Index in range(0, len(Value)): if Unicode: NewValue = NewValue + str(ord(Value[Index]) % 0x10000) + ',' else: NewValue = NewValue + str(ord(Value[Index]) % 0x100) + ',' Value = NewValue + '0}' return Value ## Base class for AutoGen # # This class just implements the cache mechanism of AutoGen objects. # class AutoGen(object): # database to maintain the objects in each child class __ObjectCache = {} # (BuildTarget, ToolChain, ARCH, platform file): AutoGen object ## Factory method # # @param Class class object of real AutoGen class # (WorkspaceAutoGen, ModuleAutoGen or PlatformAutoGen) # @param Workspace Workspace directory or WorkspaceAutoGen object # @param MetaFile The path of meta file # @param Target Build target # @param Toolchain Tool chain name # @param Arch Target arch # @param *args The specific class related parameters # @param **kwargs The specific class related dict parameters # def __new__(cls, Workspace, MetaFile, Target, Toolchain, Arch, *args, **kwargs): # check if the object has been created Key = (Target, Toolchain, Arch, MetaFile) if Key in cls.__ObjectCache: # if it exists, just return it directly return cls.__ObjectCache[Key] # it didnt exist. create it, cache it, then return it RetVal = cls.__ObjectCache[Key] = super(AutoGen, cls).__new__(cls) return RetVal ## hash() operator # # The file path of platform file will be used to represent hash value of this object # # @retval int Hash value of the file path of platform file # def __hash__(self): return hash(self.MetaFile) ## str() operator # # The file path of platform file will be used to represent this object # # @retval string String of platform file path # def __str__(self): return str(self.MetaFile) ## "==" operator def __eq__(self, Other): return Other and self.MetaFile == Other ## Workspace AutoGen class # # This class is used mainly to control the whole platform build for different # architecture. This class will generate top level makefile. # class WorkspaceAutoGen(AutoGen): # call super().__init__ then call the worker function with different parameter count def __init__(self, Workspace, MetaFile, Target, Toolchain, Arch, *args, **kwargs): if not hasattr(self, "_Init"): self._InitWorker(Workspace, MetaFile, Target, Toolchain, Arch, *args, **kwargs) self._Init = True ## Initialize WorkspaceAutoGen # # @param WorkspaceDir Root directory of workspace # @param ActivePlatform Meta-file of active platform # @param Target Build target # @param Toolchain Tool chain name # @param ArchList List of architecture of current build # @param MetaFileDb Database containing meta-files # @param BuildConfig Configuration of build # @param ToolDefinition Tool chain definitions # @param FlashDefinitionFile File of flash definition # @param Fds FD list to be generated # @param Fvs FV list to be generated # @param Caps Capsule list to be generated # @param SkuId SKU id from command line # def _InitWorker(self, WorkspaceDir, ActivePlatform, Target, Toolchain, ArchList, MetaFileDb, BuildConfig, ToolDefinition, FlashDefinitionFile='', Fds=None, Fvs=None, Caps=None, SkuId='', UniFlag=None, Progress=None, BuildModule=None): self.BuildDatabase = MetaFileDb self.MetaFile = ActivePlatform self.WorkspaceDir = WorkspaceDir self.Platform = self.BuildDatabase[self.MetaFile, TAB_ARCH_COMMON, Target, Toolchain] GlobalData.gActivePlatform = self.Platform self.BuildTarget = Target self.ToolChain = Toolchain self.ArchList = ArchList self.SkuId = SkuId self.UniFlag = UniFlag self.TargetTxt = BuildConfig self.ToolDef = ToolDefinition self.FdfFile = FlashDefinitionFile self.FdTargetList = Fds if Fds else [] self.FvTargetList = Fvs if Fvs else [] self.CapTargetList = Caps if Caps else [] self.AutoGenObjectList = [] self._GuidDict = {} # there's many relative directory operations, so ... os.chdir(self.WorkspaceDir) # # Merge Arch # if not self.ArchList: ArchList = set(self.Platform.SupArchList) else: ArchList = set(self.ArchList) & set(self.Platform.SupArchList) if not ArchList: EdkLogger.error("build", PARAMETER_INVALID, ExtraData = "Invalid ARCH specified. [Valid ARCH: %s]" % (" ".join(self.Platform.SupArchList))) elif self.ArchList and len(ArchList) != len(self.ArchList): SkippedArchList = set(self.ArchList).symmetric_difference(set(self.Platform.SupArchList)) EdkLogger.verbose("\nArch [%s] is ignored because the platform supports [%s] only!" % (" ".join(SkippedArchList), " ".join(self.Platform.SupArchList))) self.ArchList = tuple(ArchList) # Validate build target if self.BuildTarget not in self.Platform.BuildTargets: EdkLogger.error("build", PARAMETER_INVALID, ExtraData="Build target [%s] is not supported by the platform. [Valid target: %s]" % (self.BuildTarget, " ".join(self.Platform.BuildTargets))) # parse FDF file to get PCDs in it, if any if not self.FdfFile: self.FdfFile = self.Platform.FlashDefinition EdkLogger.info("") if self.ArchList: EdkLogger.info('%-16s = %s' % ("Architecture(s)", ' '.join(self.ArchList))) EdkLogger.info('%-16s = %s' % ("Build target", self.BuildTarget)) EdkLogger.info('%-16s = %s' % ("Toolchain", self.ToolChain)) EdkLogger.info('\n%-24s = %s' % ("Active Platform", self.Platform)) if BuildModule: EdkLogger.info('%-24s = %s' % ("Active Module", BuildModule)) if self.FdfFile: EdkLogger.info('%-24s = %s' % ("Flash Image Definition", self.FdfFile)) EdkLogger.verbose("\nFLASH_DEFINITION = %s" % self.FdfFile) if Progress: Progress.Start("\nProcessing meta-data") if self.FdfFile: # # Mark now build in AutoGen Phase # GlobalData.gAutoGenPhase = True Fdf = FdfParser(self.FdfFile.Path) Fdf.ParseFile() GlobalData.gFdfParser = Fdf GlobalData.gAutoGenPhase = False PcdSet = Fdf.Profile.PcdDict if Fdf.CurrentFdName and Fdf.CurrentFdName in Fdf.Profile.FdDict: FdDict = Fdf.Profile.FdDict[Fdf.CurrentFdName] for FdRegion in FdDict.RegionList: if str(FdRegion.RegionType) is 'FILE' and self.Platform.VpdToolGuid in str(FdRegion.RegionDataList): if int(FdRegion.Offset) % 8 != 0: EdkLogger.error("build", FORMAT_INVALID, 'The VPD Base Address %s must be 8-byte aligned.' % (FdRegion.Offset)) ModuleList = Fdf.Profile.InfList self.FdfProfile = Fdf.Profile for fvname in self.FvTargetList: if fvname.upper() not in self.FdfProfile.FvDict: EdkLogger.error("build", OPTION_VALUE_INVALID, "No such an FV in FDF file: %s" % fvname) # In DSC file may use FILE_GUID to override the module, then in the Platform.Modules use FILE_GUIDmodule.inf as key, # but the path (self.MetaFile.Path) is the real path for key in self.FdfProfile.InfDict: if key == 'ArchTBD': MetaFile_cache = defaultdict(set) for Arch in self.ArchList: Current_Platform_cache = self.BuildDatabase[self.MetaFile, Arch, Target, Toolchain] for Pkey in Current_Platform_cache.Modules: MetaFile_cache[Arch].add(Current_Platform_cache.Modules[Pkey].MetaFile) for Inf in self.FdfProfile.InfDict[key]: ModuleFile = PathClass(NormPath(Inf), GlobalData.gWorkspace, Arch) for Arch in self.ArchList: if ModuleFile in MetaFile_cache[Arch]: break else: ModuleData = self.BuildDatabase[ModuleFile, Arch, Target, Toolchain] if not ModuleData.IsBinaryModule: EdkLogger.error('build', PARSER_ERROR, "Module %s NOT found in DSC file; Is it really a binary module?" % ModuleFile) else: for Arch in self.ArchList: if Arch == key: Platform = self.BuildDatabase[self.MetaFile, Arch, Target, Toolchain] MetaFileList = set() for Pkey in Platform.Modules: MetaFileList.add(Platform.Modules[Pkey].MetaFile) for Inf in self.FdfProfile.InfDict[key]: ModuleFile = PathClass(NormPath(Inf), GlobalData.gWorkspace, Arch) if ModuleFile in MetaFileList: continue ModuleData = self.BuildDatabase[ModuleFile, Arch, Target, Toolchain] if not ModuleData.IsBinaryModule: EdkLogger.error('build', PARSER_ERROR, "Module %s NOT found in DSC file; Is it really a binary module?" % ModuleFile) else: PcdSet = {} ModuleList = [] self.FdfProfile = None if self.FdTargetList: EdkLogger.info("No flash definition file found. FD [%s] will be ignored." % " ".join(self.FdTargetList)) self.FdTargetList = [] if self.FvTargetList: EdkLogger.info("No flash definition file found. FV [%s] will be ignored." % " ".join(self.FvTargetList)) self.FvTargetList = [] if self.CapTargetList: EdkLogger.info("No flash definition file found. Capsule [%s] will be ignored." % " ".join(self.CapTargetList)) self.CapTargetList = [] # apply SKU and inject PCDs from Flash Definition file for Arch in self.ArchList: Platform = self.BuildDatabase[self.MetaFile, Arch, Target, Toolchain] PlatformPcds = Platform.Pcds self._GuidDict = Platform._GuidDict SourcePcdDict = {TAB_PCDS_DYNAMIC_EX:set(), TAB_PCDS_PATCHABLE_IN_MODULE:set(),TAB_PCDS_DYNAMIC:set(),TAB_PCDS_FIXED_AT_BUILD:set()} BinaryPcdDict = {TAB_PCDS_DYNAMIC_EX:set(), TAB_PCDS_PATCHABLE_IN_MODULE:set()} SourcePcdDict_Keys = SourcePcdDict.keys() BinaryPcdDict_Keys = BinaryPcdDict.keys() # generate the SourcePcdDict and BinaryPcdDict PGen = PlatformAutoGen(self, self.MetaFile, Target, Toolchain, Arch) for BuildData in list(PGen.BuildDatabase._CACHE_.values()): if BuildData.Arch != Arch: continue if BuildData.MetaFile.Ext == '.inf': for key in BuildData.Pcds: if BuildData.Pcds[key].Pending: if key in Platform.Pcds: PcdInPlatform = Platform.Pcds[key] if PcdInPlatform.Type: BuildData.Pcds[key].Type = PcdInPlatform.Type BuildData.Pcds[key].Pending = False if BuildData.MetaFile in Platform.Modules: PlatformModule = Platform.Modules[str(BuildData.MetaFile)] if key in PlatformModule.Pcds: PcdInPlatform = PlatformModule.Pcds[key] if PcdInPlatform.Type: BuildData.Pcds[key].Type = PcdInPlatform.Type BuildData.Pcds[key].Pending = False else: #Pcd used in Library, Pcd Type from reference module if Pcd Type is Pending if BuildData.Pcds[key].Pending: MGen = ModuleAutoGen(self, BuildData.MetaFile, Target, Toolchain, Arch, self.MetaFile) if MGen and MGen.IsLibrary: if MGen in PGen.LibraryAutoGenList: ReferenceModules = MGen.ReferenceModules for ReferenceModule in ReferenceModules: if ReferenceModule.MetaFile in Platform.Modules: RefPlatformModule = Platform.Modules[str(ReferenceModule.MetaFile)] if key in RefPlatformModule.Pcds: PcdInReferenceModule = RefPlatformModule.Pcds[key] if PcdInReferenceModule.Type: BuildData.Pcds[key].Type = PcdInReferenceModule.Type BuildData.Pcds[key].Pending = False break if TAB_PCDS_DYNAMIC_EX in BuildData.Pcds[key].Type: if BuildData.IsBinaryModule: BinaryPcdDict[TAB_PCDS_DYNAMIC_EX].add((BuildData.Pcds[key].TokenCName, BuildData.Pcds[key].TokenSpaceGuidCName)) else: SourcePcdDict[TAB_PCDS_DYNAMIC_EX].add((BuildData.Pcds[key].TokenCName, BuildData.Pcds[key].TokenSpaceGuidCName)) elif TAB_PCDS_PATCHABLE_IN_MODULE in BuildData.Pcds[key].Type: if BuildData.MetaFile.Ext == '.inf': if BuildData.IsBinaryModule: BinaryPcdDict[TAB_PCDS_PATCHABLE_IN_MODULE].add((BuildData.Pcds[key].TokenCName, BuildData.Pcds[key].TokenSpaceGuidCName)) else: SourcePcdDict[TAB_PCDS_PATCHABLE_IN_MODULE].add((BuildData.Pcds[key].TokenCName, BuildData.Pcds[key].TokenSpaceGuidCName)) elif TAB_PCDS_DYNAMIC in BuildData.Pcds[key].Type: SourcePcdDict[TAB_PCDS_DYNAMIC].add((BuildData.Pcds[key].TokenCName, BuildData.Pcds[key].TokenSpaceGuidCName)) elif TAB_PCDS_FIXED_AT_BUILD in BuildData.Pcds[key].Type: SourcePcdDict[TAB_PCDS_FIXED_AT_BUILD].add((BuildData.Pcds[key].TokenCName, BuildData.Pcds[key].TokenSpaceGuidCName)) else: pass # # A PCD can only use one type for all source modules # for i in SourcePcdDict_Keys: for j in SourcePcdDict_Keys: if i != j: Intersections = SourcePcdDict[i].intersection(SourcePcdDict[j]) if len(Intersections) > 0: EdkLogger.error( 'build', FORMAT_INVALID, "Building modules from source INFs, following PCD use %s and %s access method. It must be corrected to use only one access method." % (i, j), ExtraData='\n\t'.join(str(P[1]+'.'+P[0]) for P in Intersections) ) # # intersection the BinaryPCD for Mixed PCD # for i in BinaryPcdDict_Keys: for j in BinaryPcdDict_Keys: if i != j: Intersections = BinaryPcdDict[i].intersection(BinaryPcdDict[j]) for item in Intersections: NewPcd1 = (item[0] + '_' + i, item[1]) NewPcd2 = (item[0] + '_' + j, item[1]) if item not in GlobalData.MixedPcd: GlobalData.MixedPcd[item] = [NewPcd1, NewPcd2] else: if NewPcd1 not in GlobalData.MixedPcd[item]: GlobalData.MixedPcd[item].append(NewPcd1) if NewPcd2 not in GlobalData.MixedPcd[item]: GlobalData.MixedPcd[item].append(NewPcd2) # # intersection the SourcePCD and BinaryPCD for Mixed PCD # for i in SourcePcdDict_Keys: for j in BinaryPcdDict_Keys: if i != j: Intersections = SourcePcdDict[i].intersection(BinaryPcdDict[j]) for item in Intersections: NewPcd1 = (item[0] + '_' + i, item[1]) NewPcd2 = (item[0] + '_' + j, item[1]) if item not in GlobalData.MixedPcd: GlobalData.MixedPcd[item] = [NewPcd1, NewPcd2] else: if NewPcd1 not in GlobalData.MixedPcd[item]: GlobalData.MixedPcd[item].append(NewPcd1) if NewPcd2 not in GlobalData.MixedPcd[item]: GlobalData.MixedPcd[item].append(NewPcd2) for BuildData in list(PGen.BuildDatabase._CACHE_.values()): if BuildData.Arch != Arch: continue for key in BuildData.Pcds: for SinglePcd in GlobalData.MixedPcd: if (BuildData.Pcds[key].TokenCName, BuildData.Pcds[key].TokenSpaceGuidCName) == SinglePcd: for item in GlobalData.MixedPcd[SinglePcd]: Pcd_Type = item[0].split('_')[-1] if (Pcd_Type == BuildData.Pcds[key].Type) or (Pcd_Type == TAB_PCDS_DYNAMIC_EX and BuildData.Pcds[key].Type in PCD_DYNAMIC_EX_TYPE_SET) or \ (Pcd_Type == TAB_PCDS_DYNAMIC and BuildData.Pcds[key].Type in PCD_DYNAMIC_TYPE_SET): Value = BuildData.Pcds[key] Value.TokenCName = BuildData.Pcds[key].TokenCName + '_' + Pcd_Type if len(key) == 2: newkey = (Value.TokenCName, key[1]) elif len(key) == 3: newkey = (Value.TokenCName, key[1], key[2]) del BuildData.Pcds[key] BuildData.Pcds[newkey] = Value break break # handle the mixed pcd in FDF file for key in PcdSet: if key in GlobalData.MixedPcd: Value = PcdSet[key] del PcdSet[key] for item in GlobalData.MixedPcd[key]: PcdSet[item] = Value #Collect package set information from INF of FDF PkgSet = set() for Inf in ModuleList: ModuleFile = PathClass(NormPath(Inf), GlobalData.gWorkspace, Arch) if ModuleFile in Platform.Modules: continue ModuleData = self.BuildDatabase[ModuleFile, Arch, Target, Toolchain] PkgSet.update(ModuleData.Packages) Pkgs = list(PkgSet) + list(PGen.PackageList) DecPcds = set() DecPcdsKey = set() for Pkg in Pkgs: for Pcd in Pkg.Pcds: DecPcds.add((Pcd[0], Pcd[1])) DecPcdsKey.add((Pcd[0], Pcd[1], Pcd[2])) Platform.SkuName = self.SkuId for Name, Guid,Fileds in PcdSet: if (Name, Guid) not in DecPcds: EdkLogger.error( 'build', PARSER_ERROR, "PCD (%s.%s) used in FDF is not declared in DEC files." % (Guid, Name), File = self.FdfProfile.PcdFileLineDict[Name, Guid, Fileds][0], Line = self.FdfProfile.PcdFileLineDict[Name, Guid, Fileds][1] ) else: # Check whether Dynamic or DynamicEx PCD used in FDF file. If used, build break and give a error message. if (Name, Guid, TAB_PCDS_FIXED_AT_BUILD) in DecPcdsKey \ or (Name, Guid, TAB_PCDS_PATCHABLE_IN_MODULE) in DecPcdsKey \ or (Name, Guid, TAB_PCDS_FEATURE_FLAG) in DecPcdsKey: continue elif (Name, Guid, TAB_PCDS_DYNAMIC) in DecPcdsKey or (Name, Guid, TAB_PCDS_DYNAMIC_EX) in DecPcdsKey: EdkLogger.error( 'build', PARSER_ERROR, "Using Dynamic or DynamicEx type of PCD [%s.%s] in FDF file is not allowed." % (Guid, Name), File = self.FdfProfile.PcdFileLineDict[Name, Guid, Fileds][0], Line = self.FdfProfile.PcdFileLineDict[Name, Guid, Fileds][1] ) Pa = PlatformAutoGen(self, self.MetaFile, Target, Toolchain, Arch) # # Explicitly collect platform's dynamic PCDs # Pa.CollectPlatformDynamicPcds() Pa.CollectFixedAtBuildPcds() self.AutoGenObjectList.append(Pa) # # Generate Package level hash value # GlobalData.gPackageHash = {} if GlobalData.gUseHashCache: for Pkg in Pkgs: self._GenPkgLevelHash(Pkg) # # Check PCDs token value conflict in each DEC file. # self._CheckAllPcdsTokenValueConflict() # # Check PCD type and definition between DSC and DEC # self._CheckPcdDefineAndType() # # Create BuildOptions Macro & PCD metafile, also add the Active Platform and FDF file. # content = 'gCommandLineDefines: ' content += str(GlobalData.gCommandLineDefines) content += TAB_LINE_BREAK content += 'BuildOptionPcd: ' content += str(GlobalData.BuildOptionPcd) content += TAB_LINE_BREAK content += 'Active Platform: ' content += str(self.Platform) content += TAB_LINE_BREAK if self.FdfFile: content += 'Flash Image Definition: ' content += str(self.FdfFile) content += TAB_LINE_BREAK SaveFileOnChange(os.path.join(self.BuildDir, 'BuildOptions'), content, False) # # Create PcdToken Number file for Dynamic/DynamicEx Pcd. # PcdTokenNumber = 'PcdTokenNumber: ' if Pa.PcdTokenNumber: if Pa.DynamicPcdList: for Pcd in Pa.DynamicPcdList: PcdTokenNumber += TAB_LINE_BREAK PcdTokenNumber += str((Pcd.TokenCName, Pcd.TokenSpaceGuidCName)) PcdTokenNumber += ' : ' PcdTokenNumber += str(Pa.PcdTokenNumber[Pcd.TokenCName, Pcd.TokenSpaceGuidCName]) SaveFileOnChange(os.path.join(self.BuildDir, 'PcdTokenNumber'), PcdTokenNumber, False) # # Get set of workspace metafiles # AllWorkSpaceMetaFiles = self._GetMetaFiles(Target, Toolchain, Arch) # # Retrieve latest modified time of all metafiles # SrcTimeStamp = 0 for f in AllWorkSpaceMetaFiles: if os.stat(f)[8] > SrcTimeStamp: SrcTimeStamp = os.stat(f)[8] self._SrcTimeStamp = SrcTimeStamp if GlobalData.gUseHashCache: m = hashlib.md5() for files in AllWorkSpaceMetaFiles: if files.endswith('.dec'): continue f = open(files, 'rb') Content = f.read() f.close() m.update(Content) SaveFileOnChange(os.path.join(self.BuildDir, 'AutoGen.hash'), m.hexdigest(), False) GlobalData.gPlatformHash = m.hexdigest() # # Write metafile list to build directory # AutoGenFilePath = os.path.join(self.BuildDir, 'AutoGen') if os.path.exists (AutoGenFilePath): os.remove(AutoGenFilePath) if not os.path.exists(self.BuildDir): os.makedirs(self.BuildDir) with open(os.path.join(self.BuildDir, 'AutoGen'), 'w+') as file: for f in AllWorkSpaceMetaFiles: print(f, file=file) return True def _GenPkgLevelHash(self, Pkg): if Pkg.PackageName in GlobalData.gPackageHash: return PkgDir = os.path.join(self.BuildDir, Pkg.Arch, Pkg.PackageName) CreateDirectory(PkgDir) HashFile = os.path.join(PkgDir, Pkg.PackageName + '.hash') m = hashlib.md5() # Get .dec file's hash value f = open(Pkg.MetaFile.Path, 'rb') Content = f.read() f.close() m.update(Content) # Get include files hash value if Pkg.Includes: for inc in sorted(Pkg.Includes, key=lambda x: str(x)): for Root, Dirs, Files in os.walk(str(inc)): for File in sorted(Files): File_Path = os.path.join(Root, File) f = open(File_Path, 'rb') Content = f.read() f.close() m.update(Content) SaveFileOnChange(HashFile, m.hexdigest(), False) GlobalData.gPackageHash[Pkg.PackageName] = m.hexdigest() def _GetMetaFiles(self, Target, Toolchain, Arch): AllWorkSpaceMetaFiles = set() # # add fdf # if self.FdfFile: AllWorkSpaceMetaFiles.add (self.FdfFile.Path) for f in GlobalData.gFdfParser.GetAllIncludedFile(): AllWorkSpaceMetaFiles.add (f.FileName) # # add dsc # AllWorkSpaceMetaFiles.add(self.MetaFile.Path) # # add build_rule.txt & tools_def.txt # AllWorkSpaceMetaFiles.add(os.path.join(GlobalData.gConfDirectory, gDefaultBuildRuleFile)) AllWorkSpaceMetaFiles.add(os.path.join(GlobalData.gConfDirectory, gDefaultToolsDefFile)) # add BuildOption metafile # AllWorkSpaceMetaFiles.add(os.path.join(self.BuildDir, 'BuildOptions')) # add PcdToken Number file for Dynamic/DynamicEx Pcd # AllWorkSpaceMetaFiles.add(os.path.join(self.BuildDir, 'PcdTokenNumber')) for Pa in self.AutoGenObjectList: AllWorkSpaceMetaFiles.add(Pa.ToolDefinitionFile) for Arch in self.ArchList: # # add dec # for Package in PlatformAutoGen(self, self.MetaFile, Target, Toolchain, Arch).PackageList: AllWorkSpaceMetaFiles.add(Package.MetaFile.Path) # # add included dsc # for filePath in self.BuildDatabase[self.MetaFile, Arch, Target, Toolchain]._RawData.IncludedFiles: AllWorkSpaceMetaFiles.add(filePath.Path) return AllWorkSpaceMetaFiles def _CheckPcdDefineAndType(self): PcdTypeSet = {TAB_PCDS_FIXED_AT_BUILD, TAB_PCDS_PATCHABLE_IN_MODULE, TAB_PCDS_FEATURE_FLAG, TAB_PCDS_DYNAMIC, TAB_PCDS_DYNAMIC_EX} # This dict store PCDs which are not used by any modules with specified arches UnusedPcd = OrderedDict() for Pa in self.AutoGenObjectList: # Key of DSC's Pcds dictionary is PcdCName, TokenSpaceGuid for Pcd in Pa.Platform.Pcds: PcdType = Pa.Platform.Pcds[Pcd].Type # If no PCD type, this PCD comes from FDF if not PcdType: continue # Try to remove Hii and Vpd suffix if PcdType.startswith(TAB_PCDS_DYNAMIC_EX): PcdType = TAB_PCDS_DYNAMIC_EX elif PcdType.startswith(TAB_PCDS_DYNAMIC): PcdType = TAB_PCDS_DYNAMIC for Package in Pa.PackageList: # Key of DEC's Pcds dictionary is PcdCName, TokenSpaceGuid, PcdType if (Pcd[0], Pcd[1], PcdType) in Package.Pcds: break for Type in PcdTypeSet: if (Pcd[0], Pcd[1], Type) in Package.Pcds: EdkLogger.error( 'build', FORMAT_INVALID, "Type [%s] of PCD [%s.%s] in DSC file doesn't match the type [%s] defined in DEC file." \ % (Pa.Platform.Pcds[Pcd].Type, Pcd[1], Pcd[0], Type), ExtraData=None ) return else: UnusedPcd.setdefault(Pcd, []).append(Pa.Arch) for Pcd in UnusedPcd: EdkLogger.warn( 'build', "The PCD was not specified by any INF module in the platform for the given architecture.\n" "\tPCD: [%s.%s]\n\tPlatform: [%s]\n\tArch: %s" % (Pcd[1], Pcd[0], os.path.basename(str(self.MetaFile)), str(UnusedPcd[Pcd])), ExtraData=None ) def __repr__(self): return "%s [%s]" % (self.MetaFile, ", ".join(self.ArchList)) ## Return the directory to store FV files @cached_property def FvDir(self): return path.join(self.BuildDir, TAB_FV_DIRECTORY) ## Return the directory to store all intermediate and final files built @cached_property def BuildDir(self): return self.AutoGenObjectList[0].BuildDir ## Return the build output directory platform specifies @cached_property def OutputDir(self): return self.Platform.OutputDirectory ## Return platform name @cached_property def Name(self): return self.Platform.PlatformName ## Return meta-file GUID @cached_property def Guid(self): return self.Platform.Guid ## Return platform version @cached_property def Version(self): return self.Platform.Version ## Return paths of tools @cached_property def ToolDefinition(self): return self.AutoGenObjectList[0].ToolDefinition ## Return directory of platform makefile # # @retval string Makefile directory # @cached_property def MakeFileDir(self): return self.BuildDir ## Return build command string # # @retval string Build command string # @cached_property def BuildCommand(self): # BuildCommand should be all the same. So just get one from platform AutoGen return self.AutoGenObjectList[0].BuildCommand ## Check the PCDs token value conflict in each DEC file. # # Will cause build break and raise error message while two PCDs conflict. # # @return None # def _CheckAllPcdsTokenValueConflict(self): for Pa in self.AutoGenObjectList: for Package in Pa.PackageList: PcdList = list(Package.Pcds.values()) PcdList.sort(key=lambda x: int(x.TokenValue, 0)) Count = 0 while (Count < len(PcdList) - 1) : Item = PcdList[Count] ItemNext = PcdList[Count + 1] # # Make sure in the same token space the TokenValue should be unique # if (int(Item.TokenValue, 0) == int(ItemNext.TokenValue, 0)): SameTokenValuePcdList = [] SameTokenValuePcdList.append(Item) SameTokenValuePcdList.append(ItemNext) RemainPcdListLength = len(PcdList) - Count - 2 for ValueSameCount in range(RemainPcdListLength): if int(PcdList[len(PcdList) - RemainPcdListLength + ValueSameCount].TokenValue, 0) == int(Item.TokenValue, 0): SameTokenValuePcdList.append(PcdList[len(PcdList) - RemainPcdListLength + ValueSameCount]) else: break; # # Sort same token value PCD list with TokenGuid and TokenCName # SameTokenValuePcdList.sort(key=lambda x: "%s.%s" % (x.TokenSpaceGuidCName, x.TokenCName)) SameTokenValuePcdListCount = 0 while (SameTokenValuePcdListCount < len(SameTokenValuePcdList) - 1): Flag = False TemListItem = SameTokenValuePcdList[SameTokenValuePcdListCount] TemListItemNext = SameTokenValuePcdList[SameTokenValuePcdListCount + 1] if (TemListItem.TokenSpaceGuidCName == TemListItemNext.TokenSpaceGuidCName) and (TemListItem.TokenCName != TemListItemNext.TokenCName): for PcdItem in GlobalData.MixedPcd: if (TemListItem.TokenCName, TemListItem.TokenSpaceGuidCName) in GlobalData.MixedPcd[PcdItem] or \ (TemListItemNext.TokenCName, TemListItemNext.TokenSpaceGuidCName) in GlobalData.MixedPcd[PcdItem]: Flag = True if not Flag: EdkLogger.error( 'build', FORMAT_INVALID, "The TokenValue [%s] of PCD [%s.%s] is conflict with: [%s.%s] in %s"\ % (TemListItem.TokenValue, TemListItem.TokenSpaceGuidCName, TemListItem.TokenCName, TemListItemNext.TokenSpaceGuidCName, TemListItemNext.TokenCName, Package), ExtraData=None ) SameTokenValuePcdListCount += 1 Count += SameTokenValuePcdListCount Count += 1 PcdList = list(Package.Pcds.values()) PcdList.sort(key=lambda x: "%s.%s" % (x.TokenSpaceGuidCName, x.TokenCName)) Count = 0 while (Count < len(PcdList) - 1) : Item = PcdList[Count] ItemNext = PcdList[Count + 1] # # Check PCDs with same TokenSpaceGuidCName.TokenCName have same token value as well. # if (Item.TokenSpaceGuidCName == ItemNext.TokenSpaceGuidCName) and (Item.TokenCName == ItemNext.TokenCName) and (int(Item.TokenValue, 0) != int(ItemNext.TokenValue, 0)): EdkLogger.error( 'build', FORMAT_INVALID, "The TokenValue [%s] of PCD [%s.%s] in %s defined in two places should be same as well."\ % (Item.TokenValue, Item.TokenSpaceGuidCName, Item.TokenCName, Package), ExtraData=None ) Count += 1 ## Generate fds command @property def GenFdsCommand(self): return (GenMake.TopLevelMakefile(self)._TEMPLATE_.Replace(GenMake.TopLevelMakefile(self)._TemplateDict)).strip() @property def GenFdsCommandDict(self): FdsCommandDict = {} LogLevel = EdkLogger.GetLevel() if LogLevel == EdkLogger.VERBOSE: FdsCommandDict["verbose"] = True elif LogLevel <= EdkLogger.DEBUG_9: FdsCommandDict["debug"] = LogLevel - 1 elif LogLevel == EdkLogger.QUIET: FdsCommandDict["quiet"] = True if GlobalData.gEnableGenfdsMultiThread: FdsCommandDict["GenfdsMultiThread"] = True if GlobalData.gIgnoreSource: FdsCommandDict["IgnoreSources"] = True FdsCommandDict["OptionPcd"] = [] for pcd in GlobalData.BuildOptionPcd: if pcd[2]: pcdname = '.'.join(pcd[0:3]) else: pcdname = '.'.join(pcd[0:2]) if pcd[3].startswith('{'): FdsCommandDict["OptionPcd"].append(pcdname + '=' + 'H' + '"' + pcd[3] + '"') else: FdsCommandDict["OptionPcd"].append(pcdname + '=' + pcd[3]) MacroList = [] # macros passed to GenFds MacroDict = {} MacroDict.update(GlobalData.gGlobalDefines) MacroDict.update(GlobalData.gCommandLineDefines) for MacroName in MacroDict: if MacroDict[MacroName] != "": MacroList.append('"%s=%s"' % (MacroName, MacroDict[MacroName].replace('\\', '\\\\'))) else: MacroList.append('"%s"' % MacroName) FdsCommandDict["macro"] = MacroList FdsCommandDict["fdf_file"] = [self.FdfFile] FdsCommandDict["build_target"] = self.BuildTarget FdsCommandDict["toolchain_tag"] = self.ToolChain FdsCommandDict["active_platform"] = str(self) FdsCommandDict["conf_directory"] = GlobalData.gConfDirectory FdsCommandDict["build_architecture_list"] = ','.join(self.ArchList) FdsCommandDict["platform_build_directory"] = self.BuildDir FdsCommandDict["fd"] = self.FdTargetList FdsCommandDict["fv"] = self.FvTargetList FdsCommandDict["cap"] = self.CapTargetList return FdsCommandDict ## Create makefile for the platform and modules in it # # @param CreateDepsMakeFile Flag indicating if the makefile for # modules will be created as well # def CreateMakeFile(self, CreateDepsMakeFile=False): if not CreateDepsMakeFile: return for Pa in self.AutoGenObjectList: Pa.CreateMakeFile(True) ## Create autogen code for platform and modules # # Since there's no autogen code for platform, this method will do nothing # if CreateModuleCodeFile is set to False. # # @param CreateDepsCodeFile Flag indicating if creating module's # autogen code file or not # def CreateCodeFile(self, CreateDepsCodeFile=False): if not CreateDepsCodeFile: return for Pa in self.AutoGenObjectList: Pa.CreateCodeFile(True) ## Create AsBuilt INF file the platform # def CreateAsBuiltInf(self): return ## AutoGen class for platform # # PlatformAutoGen class will process the original information in platform # file in order to generate makefile for platform. # class PlatformAutoGen(AutoGen): # call super().__init__ then call the worker function with different parameter count def __init__(self, Workspace, MetaFile, Target, Toolchain, Arch, *args, **kwargs): if not hasattr(self, "_Init"): self._InitWorker(Workspace, MetaFile, Target, Toolchain, Arch) self._Init = True # # Used to store all PCDs for both PEI and DXE phase, in order to generate # correct PCD database # _DynaPcdList_ = [] _NonDynaPcdList_ = [] _PlatformPcds = {} # # The priority list while override build option # PrioList = {"0x11111" : 16, # TARGET_TOOLCHAIN_ARCH_COMMANDTYPE_ATTRIBUTE (Highest) "0x01111" : 15, # ******_TOOLCHAIN_ARCH_COMMANDTYPE_ATTRIBUTE "0x10111" : 14, # TARGET_*********_ARCH_COMMANDTYPE_ATTRIBUTE "0x00111" : 13, # ******_*********_ARCH_COMMANDTYPE_ATTRIBUTE "0x11011" : 12, # TARGET_TOOLCHAIN_****_COMMANDTYPE_ATTRIBUTE "0x01011" : 11, # ******_TOOLCHAIN_****_COMMANDTYPE_ATTRIBUTE "0x10011" : 10, # TARGET_*********_****_COMMANDTYPE_ATTRIBUTE "0x00011" : 9, # ******_*********_****_COMMANDTYPE_ATTRIBUTE "0x11101" : 8, # TARGET_TOOLCHAIN_ARCH_***********_ATTRIBUTE "0x01101" : 7, # ******_TOOLCHAIN_ARCH_***********_ATTRIBUTE "0x10101" : 6, # TARGET_*********_ARCH_***********_ATTRIBUTE "0x00101" : 5, # ******_*********_ARCH_***********_ATTRIBUTE "0x11001" : 4, # TARGET_TOOLCHAIN_****_***********_ATTRIBUTE "0x01001" : 3, # ******_TOOLCHAIN_****_***********_ATTRIBUTE "0x10001" : 2, # TARGET_*********_****_***********_ATTRIBUTE "0x00001" : 1} # ******_*********_****_***********_ATTRIBUTE (Lowest) ## Initialize PlatformAutoGen # # # @param Workspace WorkspaceAutoGen object # @param PlatformFile Platform file (DSC file) # @param Target Build target (DEBUG, RELEASE) # @param Toolchain Name of tool chain # @param Arch arch of the platform supports # def _InitWorker(self, Workspace, PlatformFile, Target, Toolchain, Arch): EdkLogger.debug(EdkLogger.DEBUG_9, "AutoGen platform [%s] [%s]" % (PlatformFile, Arch)) GlobalData.gProcessingFile = "%s [%s, %s, %s]" % (PlatformFile, Arch, Toolchain, Target) self.MetaFile = PlatformFile self.Workspace = Workspace self.WorkspaceDir = Workspace.WorkspaceDir self.ToolChain = Toolchain self.BuildTarget = Target self.Arch = Arch self.SourceDir = PlatformFile.SubDir self.FdTargetList = self.Workspace.FdTargetList self.FvTargetList = self.Workspace.FvTargetList # get the original module/package/platform objects self.BuildDatabase = Workspace.BuildDatabase self.DscBuildDataObj = Workspace.Platform # flag indicating if the makefile/C-code file has been created or not self.IsMakeFileCreated = False self._DynamicPcdList = None # [(TokenCName1, TokenSpaceGuidCName1), (TokenCName2, TokenSpaceGuidCName2), ...] self._NonDynamicPcdList = None # [(TokenCName1, TokenSpaceGuidCName1), (TokenCName2, TokenSpaceGuidCName2), ...] self._AsBuildInfList = [] self._AsBuildModuleList = [] self.VariableInfo = None if GlobalData.gFdfParser is not None: self._AsBuildInfList = GlobalData.gFdfParser.Profile.InfList for Inf in self._AsBuildInfList: InfClass = PathClass(NormPath(Inf), GlobalData.gWorkspace, self.Arch) M = self.BuildDatabase[InfClass, self.Arch, self.BuildTarget, self.ToolChain] if not M.IsBinaryModule: continue self._AsBuildModuleList.append(InfClass) # get library/modules for build self.LibraryBuildDirectoryList = [] self.ModuleBuildDirectoryList = [] return True ## hash() operator of PlatformAutoGen # # The platform file path and arch string will be used to represent # hash value of this object # # @retval int Hash value of the platform file path and arch # @cached_class_function def __hash__(self): return hash((self.MetaFile, self.Arch)) @cached_class_function def __repr__(self): return "%s [%s]" % (self.MetaFile, self.Arch) ## Create autogen code for platform and modules # # Since there's no autogen code for platform, this method will do nothing # if CreateModuleCodeFile is set to False. # # @param CreateModuleCodeFile Flag indicating if creating module's # autogen code file or not # @cached_class_function def CreateCodeFile(self, CreateModuleCodeFile=False): # only module has code to be created, so do nothing if CreateModuleCodeFile is False if not CreateModuleCodeFile: return for Ma in self.ModuleAutoGenList: Ma.CreateCodeFile(True) ## Generate Fds Command @cached_property def GenFdsCommand(self): return self.Workspace.GenFdsCommand ## Create makefile for the platform and modules in it # # @param CreateModuleMakeFile Flag indicating if the makefile for # modules will be created as well # def CreateMakeFile(self, CreateModuleMakeFile=False, FfsCommand = {}): if CreateModuleMakeFile: for Ma in self._MaList: key = (Ma.MetaFile.File, self.Arch) if key in FfsCommand: Ma.CreateMakeFile(True, FfsCommand[key]) else: Ma.CreateMakeFile(True) # no need to create makefile for the platform more than once if self.IsMakeFileCreated: return # create library/module build dirs for platform Makefile = GenMake.PlatformMakefile(self) self.LibraryBuildDirectoryList = Makefile.GetLibraryBuildDirectoryList() self.ModuleBuildDirectoryList = Makefile.GetModuleBuildDirectoryList() self.IsMakeFileCreated = True @property def AllPcdList(self): return self.DynamicPcdList + self.NonDynamicPcdList ## Deal with Shared FixedAtBuild Pcds # def CollectFixedAtBuildPcds(self): for LibAuto in self.LibraryAutoGenList: FixedAtBuildPcds = {} ShareFixedAtBuildPcdsSameValue = {} for Module in LibAuto.ReferenceModules: for Pcd in set(Module.FixedAtBuildPcds + LibAuto.FixedAtBuildPcds): DefaultValue = Pcd.DefaultValue # Cover the case: DSC component override the Pcd value and the Pcd only used in one Lib if Pcd in Module.LibraryPcdList: Index = Module.LibraryPcdList.index(Pcd) DefaultValue = Module.LibraryPcdList[Index].DefaultValue key = ".".join((Pcd.TokenSpaceGuidCName, Pcd.TokenCName)) if key not in FixedAtBuildPcds: ShareFixedAtBuildPcdsSameValue[key] = True FixedAtBuildPcds[key] = DefaultValue else: if FixedAtBuildPcds[key] != DefaultValue: ShareFixedAtBuildPcdsSameValue[key] = False for Pcd in LibAuto.FixedAtBuildPcds: key = ".".join((Pcd.TokenSpaceGuidCName, Pcd.TokenCName)) if (Pcd.TokenCName, Pcd.TokenSpaceGuidCName) not in self.NonDynamicPcdDict: continue else: DscPcd = self.NonDynamicPcdDict[(Pcd.TokenCName, Pcd.TokenSpaceGuidCName)] if DscPcd.Type != TAB_PCDS_FIXED_AT_BUILD: continue if key in ShareFixedAtBuildPcdsSameValue and ShareFixedAtBuildPcdsSameValue[key]: LibAuto.ConstPcd[key] = FixedAtBuildPcds[key] def CollectVariables(self, DynamicPcdSet): VpdRegionSize = 0 VpdRegionBase = 0 if self.Workspace.FdfFile: FdDict = self.Workspace.FdfProfile.FdDict[GlobalData.gFdfParser.CurrentFdName] for FdRegion in FdDict.RegionList: for item in FdRegion.RegionDataList: if self.Platform.VpdToolGuid.strip() and self.Platform.VpdToolGuid in item: VpdRegionSize = FdRegion.Size VpdRegionBase = FdRegion.Offset break VariableInfo = VariableMgr(self.DscBuildDataObj._GetDefaultStores(), self.DscBuildDataObj.SkuIds) VariableInfo.SetVpdRegionMaxSize(VpdRegionSize) VariableInfo.SetVpdRegionOffset(VpdRegionBase) Index = 0 for Pcd in DynamicPcdSet: pcdname = ".".join((Pcd.TokenSpaceGuidCName, Pcd.TokenCName)) for SkuName in Pcd.SkuInfoList: Sku = Pcd.SkuInfoList[SkuName] SkuId = Sku.SkuId if SkuId is None or SkuId == '': continue if len(Sku.VariableName) > 0: if Sku.VariableAttribute and 'NV' not in Sku.VariableAttribute: continue VariableGuidStructure = Sku.VariableGuidValue VariableGuid = GuidStructureStringToGuidString(VariableGuidStructure) for StorageName in Sku.DefaultStoreDict: VariableInfo.append_variable(var_info(Index, pcdname, StorageName, SkuName, StringToArray(Sku.VariableName), VariableGuid, Sku.VariableOffset, Sku.VariableAttribute, Sku.HiiDefaultValue, Sku.DefaultStoreDict[StorageName] if Pcd.DatumType in TAB_PCD_NUMERIC_TYPES else StringToArray(Sku.DefaultStoreDict[StorageName]), Pcd.DatumType, Pcd.CustomAttribute['DscPosition'], Pcd.CustomAttribute.get('IsStru',False))) Index += 1 return VariableInfo def UpdateNVStoreMaxSize(self, OrgVpdFile): if self.VariableInfo: VpdMapFilePath = os.path.join(self.BuildDir, TAB_FV_DIRECTORY, "%s.map" % self.Platform.VpdToolGuid) PcdNvStoreDfBuffer = [item for item in self._DynamicPcdList if item.TokenCName == "PcdNvStoreDefaultValueBuffer" and item.TokenSpaceGuidCName == "gEfiMdeModulePkgTokenSpaceGuid"] if PcdNvStoreDfBuffer: if os.path.exists(VpdMapFilePath): OrgVpdFile.Read(VpdMapFilePath) PcdItems = OrgVpdFile.GetOffset(PcdNvStoreDfBuffer[0]) NvStoreOffset = list(PcdItems.values())[0].strip() if PcdItems else '0' else: EdkLogger.error("build", FILE_READ_FAILURE, "Can not find VPD map file %s to fix up VPD offset." % VpdMapFilePath) NvStoreOffset = int(NvStoreOffset, 16) if NvStoreOffset.upper().startswith("0X") else int(NvStoreOffset) default_skuobj = PcdNvStoreDfBuffer[0].SkuInfoList.get(TAB_DEFAULT) maxsize = self.VariableInfo.VpdRegionSize - NvStoreOffset if self.VariableInfo.VpdRegionSize else len(default_skuobj.DefaultValue.split(",")) var_data = self.VariableInfo.PatchNVStoreDefaultMaxSize(maxsize) if var_data and default_skuobj: default_skuobj.DefaultValue = var_data PcdNvStoreDfBuffer[0].DefaultValue = var_data PcdNvStoreDfBuffer[0].SkuInfoList.clear() PcdNvStoreDfBuffer[0].SkuInfoList[TAB_DEFAULT] = default_skuobj PcdNvStoreDfBuffer[0].MaxDatumSize = str(len(default_skuobj.DefaultValue.split(","))) return OrgVpdFile ## Collect dynamic PCDs # # Gather dynamic PCDs list from each module and their settings from platform # This interface should be invoked explicitly when platform action is created. # def CollectPlatformDynamicPcds(self): for key in self.Platform.Pcds: for SinglePcd in GlobalData.MixedPcd: if (self.Platform.Pcds[key].TokenCName, self.Platform.Pcds[key].TokenSpaceGuidCName) == SinglePcd: for item in GlobalData.MixedPcd[SinglePcd]: Pcd_Type = item[0].split('_')[-1] if (Pcd_Type == self.Platform.Pcds[key].Type) or (Pcd_Type == TAB_PCDS_DYNAMIC_EX and self.Platform.Pcds[key].Type in PCD_DYNAMIC_EX_TYPE_SET) or \ (Pcd_Type == TAB_PCDS_DYNAMIC and self.Platform.Pcds[key].Type in PCD_DYNAMIC_TYPE_SET): Value = self.Platform.Pcds[key] Value.TokenCName = self.Platform.Pcds[key].TokenCName + '_' + Pcd_Type if len(key) == 2: newkey = (Value.TokenCName, key[1]) elif len(key) == 3: newkey = (Value.TokenCName, key[1], key[2]) del self.Platform.Pcds[key] self.Platform.Pcds[newkey] = Value break break # for gathering error information NoDatumTypePcdList = set() FdfModuleList = [] for InfName in self._AsBuildInfList: InfName = mws.join(self.WorkspaceDir, InfName) FdfModuleList.append(os.path.normpath(InfName)) for M in self._MaList: # F is the Module for which M is the module autogen for PcdFromModule in M.ModulePcdList + M.LibraryPcdList: # make sure that the "VOID*" kind of datum has MaxDatumSize set if PcdFromModule.DatumType == TAB_VOID and not PcdFromModule.MaxDatumSize: NoDatumTypePcdList.add("%s.%s [%s]" % (PcdFromModule.TokenSpaceGuidCName, PcdFromModule.TokenCName, M.MetaFile)) # Check the PCD from Binary INF or Source INF if M.IsBinaryModule == True: PcdFromModule.IsFromBinaryInf = True # Check the PCD from DSC or not PcdFromModule.IsFromDsc = (PcdFromModule.TokenCName, PcdFromModule.TokenSpaceGuidCName) in self.Platform.Pcds if PcdFromModule.Type in PCD_DYNAMIC_TYPE_SET or PcdFromModule.Type in PCD_DYNAMIC_EX_TYPE_SET: if M.MetaFile.Path not in FdfModuleList: # If one of the Source built modules listed in the DSC is not listed # in FDF modules, and the INF lists a PCD can only use the PcdsDynamic # access method (it is only listed in the DEC file that declares the # PCD as PcdsDynamic), then build tool will report warning message # notify the PI that they are attempting to build a module that must # be included in a flash image in order to be functional. These Dynamic # PCD will not be added into the Database unless it is used by other # modules that are included in the FDF file. if PcdFromModule.Type in PCD_DYNAMIC_TYPE_SET and \ PcdFromModule.IsFromBinaryInf == False: # Print warning message to let the developer make a determine. continue # If one of the Source built modules listed in the DSC is not listed in # FDF modules, and the INF lists a PCD can only use the PcdsDynamicEx # access method (it is only listed in the DEC file that declares the # PCD as PcdsDynamicEx), then DO NOT break the build; DO NOT add the # PCD to the Platform's PCD Database. if PcdFromModule.Type in PCD_DYNAMIC_EX_TYPE_SET: continue # # If a dynamic PCD used by a PEM module/PEI module & DXE module, # it should be stored in Pcd PEI database, If a dynamic only # used by DXE module, it should be stored in DXE PCD database. # The default Phase is DXE # if M.ModuleType in SUP_MODULE_SET_PEI: PcdFromModule.Phase = "PEI" if PcdFromModule not in self._DynaPcdList_: self._DynaPcdList_.append(PcdFromModule) elif PcdFromModule.Phase == 'PEI': # overwrite any the same PCD existing, if Phase is PEI Index = self._DynaPcdList_.index(PcdFromModule) self._DynaPcdList_[Index] = PcdFromModule elif PcdFromModule not in self._NonDynaPcdList_: self._NonDynaPcdList_.append(PcdFromModule) elif PcdFromModule in self._NonDynaPcdList_ and PcdFromModule.IsFromBinaryInf == True: Index = self._NonDynaPcdList_.index(PcdFromModule) if self._NonDynaPcdList_[Index].IsFromBinaryInf == False: #The PCD from Binary INF will override the same one from source INF self._NonDynaPcdList_.remove (self._NonDynaPcdList_[Index]) PcdFromModule.Pending = False self._NonDynaPcdList_.append (PcdFromModule) DscModuleSet = {os.path.normpath(ModuleInf.Path) for ModuleInf in self.Platform.Modules} # add the PCD from modules that listed in FDF but not in DSC to Database for InfName in FdfModuleList: if InfName not in DscModuleSet: InfClass = PathClass(InfName) M = self.BuildDatabase[InfClass, self.Arch, self.BuildTarget, self.ToolChain] # If a module INF in FDF but not in current arch's DSC module list, it must be module (either binary or source) # for different Arch. PCDs in source module for different Arch is already added before, so skip the source module here. # For binary module, if in current arch, we need to list the PCDs into database. if not M.IsBinaryModule: continue # Override the module PCD setting by platform setting ModulePcdList = self.ApplyPcdSetting(M, M.Pcds) for PcdFromModule in ModulePcdList: PcdFromModule.IsFromBinaryInf = True PcdFromModule.IsFromDsc = False # Only allow the DynamicEx and Patchable PCD in AsBuild INF if PcdFromModule.Type not in PCD_DYNAMIC_EX_TYPE_SET and PcdFromModule.Type not in TAB_PCDS_PATCHABLE_IN_MODULE: EdkLogger.error("build", AUTOGEN_ERROR, "PCD setting error", File=self.MetaFile, ExtraData="\n\tExisted %s PCD %s in:\n\t\t%s\n" % (PcdFromModule.Type, PcdFromModule.TokenCName, InfName)) # make sure that the "VOID*" kind of datum has MaxDatumSize set if PcdFromModule.DatumType == TAB_VOID and not PcdFromModule.MaxDatumSize: NoDatumTypePcdList.add("%s.%s [%s]" % (PcdFromModule.TokenSpaceGuidCName, PcdFromModule.TokenCName, InfName)) if M.ModuleType in SUP_MODULE_SET_PEI: PcdFromModule.Phase = "PEI" if PcdFromModule not in self._DynaPcdList_ and PcdFromModule.Type in PCD_DYNAMIC_EX_TYPE_SET: self._DynaPcdList_.append(PcdFromModule) elif PcdFromModule not in self._NonDynaPcdList_ and PcdFromModule.Type in TAB_PCDS_PATCHABLE_IN_MODULE: self._NonDynaPcdList_.append(PcdFromModule) if PcdFromModule in self._DynaPcdList_ and PcdFromModule.Phase == 'PEI' and PcdFromModule.Type in PCD_DYNAMIC_EX_TYPE_SET: # Overwrite the phase of any the same PCD existing, if Phase is PEI. # It is to solve the case that a dynamic PCD used by a PEM module/PEI # module & DXE module at a same time. # Overwrite the type of the PCDs in source INF by the type of AsBuild # INF file as DynamicEx. Index = self._DynaPcdList_.index(PcdFromModule) self._DynaPcdList_[Index].Phase = PcdFromModule.Phase self._DynaPcdList_[Index].Type = PcdFromModule.Type for PcdFromModule in self._NonDynaPcdList_: # If a PCD is not listed in the DSC file, but binary INF files used by # this platform all (that use this PCD) list the PCD in a [PatchPcds] # section, AND all source INF files used by this platform the build # that use the PCD list the PCD in either a [Pcds] or [PatchPcds] # section, then the tools must NOT add the PCD to the Platform's PCD # Database; the build must assign the access method for this PCD as # PcdsPatchableInModule. if PcdFromModule not in self._DynaPcdList_: continue Index = self._DynaPcdList_.index(PcdFromModule) if PcdFromModule.IsFromDsc == False and \ PcdFromModule.Type in TAB_PCDS_PATCHABLE_IN_MODULE and \ PcdFromModule.IsFromBinaryInf == True and \ self._DynaPcdList_[Index].IsFromBinaryInf == False: Index = self._DynaPcdList_.index(PcdFromModule) self._DynaPcdList_.remove (self._DynaPcdList_[Index]) # print out error information and break the build, if error found if len(NoDatumTypePcdList) > 0: NoDatumTypePcdListString = "\n\t\t".join(NoDatumTypePcdList) EdkLogger.error("build", AUTOGEN_ERROR, "PCD setting error", File=self.MetaFile, ExtraData="\n\tPCD(s) without MaxDatumSize:\n\t\t%s\n" % NoDatumTypePcdListString) self._NonDynamicPcdList = self._NonDynaPcdList_ self._DynamicPcdList = self._DynaPcdList_ # # Sort dynamic PCD list to: # 1) If PCD's datum type is VOID* and value is unicode string which starts with L, the PCD item should # try to be put header of dynamicd List # 2) If PCD is HII type, the PCD item should be put after unicode type PCD # # The reason of sorting is make sure the unicode string is in double-byte alignment in string table. # UnicodePcdArray = set() HiiPcdArray = set() OtherPcdArray = set() VpdPcdDict = {} VpdFile = VpdInfoFile.VpdInfoFile() NeedProcessVpdMapFile = False for pcd in self.Platform.Pcds: if pcd not in self._PlatformPcds: self._PlatformPcds[pcd] = self.Platform.Pcds[pcd] for item in self._PlatformPcds: if self._PlatformPcds[item].DatumType and self._PlatformPcds[item].DatumType not in [TAB_UINT8, TAB_UINT16, TAB_UINT32, TAB_UINT64, TAB_VOID, "BOOLEAN"]: self._PlatformPcds[item].DatumType = TAB_VOID if (self.Workspace.ArchList[-1] == self.Arch): for Pcd in self._DynamicPcdList: # just pick the a value to determine whether is unicode string type Sku = Pcd.SkuInfoList.get(TAB_DEFAULT) Sku.VpdOffset = Sku.VpdOffset.strip() if Pcd.DatumType not in [TAB_UINT8, TAB_UINT16, TAB_UINT32, TAB_UINT64, TAB_VOID, "BOOLEAN"]: Pcd.DatumType = TAB_VOID # if found PCD which datum value is unicode string the insert to left size of UnicodeIndex # if found HII type PCD then insert to right of UnicodeIndex if Pcd.Type in [TAB_PCDS_DYNAMIC_VPD, TAB_PCDS_DYNAMIC_EX_VPD]: VpdPcdDict[(Pcd.TokenCName, Pcd.TokenSpaceGuidCName)] = Pcd #Collect DynamicHii PCD values and assign it to DynamicExVpd PCD gEfiMdeModulePkgTokenSpaceGuid.PcdNvStoreDefaultValueBuffer PcdNvStoreDfBuffer = VpdPcdDict.get(("PcdNvStoreDefaultValueBuffer", "gEfiMdeModulePkgTokenSpaceGuid")) if PcdNvStoreDfBuffer: self.VariableInfo = self.CollectVariables(self._DynamicPcdList) vardump = self.VariableInfo.dump() if vardump: # #According to PCD_DATABASE_INIT in edk2\MdeModulePkg\Include\Guid\PcdDataBaseSignatureGuid.h, #the max size for string PCD should not exceed USHRT_MAX 65535(0xffff). #typedef UINT16 SIZE_INFO; #//SIZE_INFO SizeTable[]; if len(vardump.split(",")) > 0xffff: EdkLogger.error("build", RESOURCE_OVERFLOW, 'The current length of PCD %s value is %d, it exceeds to the max size of String PCD.' %(".".join([PcdNvStoreDfBuffer.TokenSpaceGuidCName,PcdNvStoreDfBuffer.TokenCName]) ,len(vardump.split(",")))) PcdNvStoreDfBuffer.DefaultValue = vardump for skuname in PcdNvStoreDfBuffer.SkuInfoList: PcdNvStoreDfBuffer.SkuInfoList[skuname].DefaultValue = vardump PcdNvStoreDfBuffer.MaxDatumSize = str(len(vardump.split(","))) else: #If the end user define [DefaultStores] and [XXX.Menufacturing] in DSC, but forget to configure PcdNvStoreDefaultValueBuffer to PcdsDynamicVpd if [Pcd for Pcd in self._DynamicPcdList if Pcd.UserDefinedDefaultStoresFlag]: EdkLogger.warn("build", "PcdNvStoreDefaultValueBuffer should be defined as PcdsDynamicExVpd in dsc file since the DefaultStores is enabled for this platform.\n%s" %self.Platform.MetaFile.Path) PlatformPcds = sorted(self._PlatformPcds.keys()) # # Add VPD type PCD into VpdFile and determine whether the VPD PCD need to be fixed up. # VpdSkuMap = {} for PcdKey in PlatformPcds: Pcd = self._PlatformPcds[PcdKey] if Pcd.Type in [TAB_PCDS_DYNAMIC_VPD, TAB_PCDS_DYNAMIC_EX_VPD] and \ PcdKey in VpdPcdDict: Pcd = VpdPcdDict[PcdKey] SkuValueMap = {} DefaultSku = Pcd.SkuInfoList.get(TAB_DEFAULT) if DefaultSku: PcdValue = DefaultSku.DefaultValue if PcdValue not in SkuValueMap: SkuValueMap[PcdValue] = [] VpdFile.Add(Pcd, TAB_DEFAULT, DefaultSku.VpdOffset) SkuValueMap[PcdValue].append(DefaultSku) for (SkuName, Sku) in Pcd.SkuInfoList.items(): Sku.VpdOffset = Sku.VpdOffset.strip() PcdValue = Sku.DefaultValue if PcdValue == "": PcdValue = Pcd.DefaultValue if Sku.VpdOffset != TAB_STAR: if PcdValue.startswith("{"): Alignment = 8 elif PcdValue.startswith("L"): Alignment = 2 else: Alignment = 1 try: VpdOffset = int(Sku.VpdOffset) except: try: VpdOffset = int(Sku.VpdOffset, 16) except: EdkLogger.error("build", FORMAT_INVALID, "Invalid offset value %s for PCD %s.%s." % (Sku.VpdOffset, Pcd.TokenSpaceGuidCName, Pcd.TokenCName)) if VpdOffset % Alignment != 0: if PcdValue.startswith("{"): EdkLogger.warn("build", "The offset value of PCD %s.%s is not 8-byte aligned!" %(Pcd.TokenSpaceGuidCName, Pcd.TokenCName), File=self.MetaFile) else: EdkLogger.error("build", FORMAT_INVALID, 'The offset value of PCD %s.%s should be %s-byte aligned.' % (Pcd.TokenSpaceGuidCName, Pcd.TokenCName, Alignment)) if PcdValue not in SkuValueMap: SkuValueMap[PcdValue] = [] VpdFile.Add(Pcd, SkuName, Sku.VpdOffset) SkuValueMap[PcdValue].append(Sku) # if the offset of a VPD is *, then it need to be fixed up by third party tool. if not NeedProcessVpdMapFile and Sku.VpdOffset == TAB_STAR: NeedProcessVpdMapFile = True if self.Platform.VpdToolGuid is None or self.Platform.VpdToolGuid == '': EdkLogger.error("Build", FILE_NOT_FOUND, \ "Fail to find third-party BPDG tool to process VPD PCDs. BPDG Guid tool need to be defined in tools_def.txt and VPD_TOOL_GUID need to be provided in DSC file.") VpdSkuMap[PcdKey] = SkuValueMap # # Fix the PCDs define in VPD PCD section that never referenced by module. # An example is PCD for signature usage. # for DscPcd in PlatformPcds: DscPcdEntry = self._PlatformPcds[DscPcd] if DscPcdEntry.Type in [TAB_PCDS_DYNAMIC_VPD, TAB_PCDS_DYNAMIC_EX_VPD]: if not (self.Platform.VpdToolGuid is None or self.Platform.VpdToolGuid == ''): FoundFlag = False for VpdPcd in VpdFile._VpdArray: # This PCD has been referenced by module if (VpdPcd.TokenSpaceGuidCName == DscPcdEntry.TokenSpaceGuidCName) and \ (VpdPcd.TokenCName == DscPcdEntry.TokenCName): FoundFlag = True # Not found, it should be signature if not FoundFlag : # just pick the a value to determine whether is unicode string type SkuValueMap = {} SkuObjList = list(DscPcdEntry.SkuInfoList.items()) DefaultSku = DscPcdEntry.SkuInfoList.get(TAB_DEFAULT) if DefaultSku: defaultindex = SkuObjList.index((TAB_DEFAULT, DefaultSku)) SkuObjList[0], SkuObjList[defaultindex] = SkuObjList[defaultindex], SkuObjList[0] for (SkuName, Sku) in SkuObjList: Sku.VpdOffset = Sku.VpdOffset.strip() # Need to iterate DEC pcd information to get the value & datumtype for eachDec in self.PackageList: for DecPcd in eachDec.Pcds: DecPcdEntry = eachDec.Pcds[DecPcd] if (DecPcdEntry.TokenSpaceGuidCName == DscPcdEntry.TokenSpaceGuidCName) and \ (DecPcdEntry.TokenCName == DscPcdEntry.TokenCName): # Print warning message to let the developer make a determine. EdkLogger.warn("build", "Unreferenced vpd pcd used!", File=self.MetaFile, \ ExtraData = "PCD: %s.%s used in the DSC file %s is unreferenced." \ %(DscPcdEntry.TokenSpaceGuidCName, DscPcdEntry.TokenCName, self.Platform.MetaFile.Path)) DscPcdEntry.DatumType = DecPcdEntry.DatumType DscPcdEntry.DefaultValue = DecPcdEntry.DefaultValue DscPcdEntry.TokenValue = DecPcdEntry.TokenValue DscPcdEntry.TokenSpaceGuidValue = eachDec.Guids[DecPcdEntry.TokenSpaceGuidCName] # Only fix the value while no value provided in DSC file. if not Sku.DefaultValue: DscPcdEntry.SkuInfoList[list(DscPcdEntry.SkuInfoList.keys())[0]].DefaultValue = DecPcdEntry.DefaultValue if DscPcdEntry not in self._DynamicPcdList: self._DynamicPcdList.append(DscPcdEntry) Sku.VpdOffset = Sku.VpdOffset.strip() PcdValue = Sku.DefaultValue if PcdValue == "": PcdValue = DscPcdEntry.DefaultValue if Sku.VpdOffset != TAB_STAR: if PcdValue.startswith("{"): Alignment = 8 elif PcdValue.startswith("L"): Alignment = 2 else: Alignment = 1 try: VpdOffset = int(Sku.VpdOffset) except: try: VpdOffset = int(Sku.VpdOffset, 16) except: EdkLogger.error("build", FORMAT_INVALID, "Invalid offset value %s for PCD %s.%s." % (Sku.VpdOffset, DscPcdEntry.TokenSpaceGuidCName, DscPcdEntry.TokenCName)) if VpdOffset % Alignment != 0: if PcdValue.startswith("{"): EdkLogger.warn("build", "The offset value of PCD %s.%s is not 8-byte aligned!" %(DscPcdEntry.TokenSpaceGuidCName, DscPcdEntry.TokenCName), File=self.MetaFile) else: EdkLogger.error("build", FORMAT_INVALID, 'The offset value of PCD %s.%s should be %s-byte aligned.' % (DscPcdEntry.TokenSpaceGuidCName, DscPcdEntry.TokenCName, Alignment)) if PcdValue not in SkuValueMap: SkuValueMap[PcdValue] = [] VpdFile.Add(DscPcdEntry, SkuName, Sku.VpdOffset) SkuValueMap[PcdValue].append(Sku) if not NeedProcessVpdMapFile and Sku.VpdOffset == TAB_STAR: NeedProcessVpdMapFile = True if DscPcdEntry.DatumType == TAB_VOID and PcdValue.startswith("L"): UnicodePcdArray.add(DscPcdEntry) elif len(Sku.VariableName) > 0: HiiPcdArray.add(DscPcdEntry) else: OtherPcdArray.add(DscPcdEntry) # if the offset of a VPD is *, then it need to be fixed up by third party tool. VpdSkuMap[DscPcd] = SkuValueMap if (self.Platform.FlashDefinition is None or self.Platform.FlashDefinition == '') and \ VpdFile.GetCount() != 0: EdkLogger.error("build", ATTRIBUTE_NOT_AVAILABLE, "Fail to get FLASH_DEFINITION definition in DSC file %s which is required when DSC contains VPD PCD." % str(self.Platform.MetaFile)) if VpdFile.GetCount() != 0: self.FixVpdOffset(VpdFile) self.FixVpdOffset(self.UpdateNVStoreMaxSize(VpdFile)) PcdNvStoreDfBuffer = [item for item in self._DynamicPcdList if item.TokenCName == "PcdNvStoreDefaultValueBuffer" and item.TokenSpaceGuidCName == "gEfiMdeModulePkgTokenSpaceGuid"] if PcdNvStoreDfBuffer: PcdName,PcdGuid = PcdNvStoreDfBuffer[0].TokenCName, PcdNvStoreDfBuffer[0].TokenSpaceGuidCName if (PcdName,PcdGuid) in VpdSkuMap: DefaultSku = PcdNvStoreDfBuffer[0].SkuInfoList.get(TAB_DEFAULT) VpdSkuMap[(PcdName,PcdGuid)] = {DefaultSku.DefaultValue:[SkuObj for SkuObj in PcdNvStoreDfBuffer[0].SkuInfoList.values() ]} # Process VPD map file generated by third party BPDG tool if NeedProcessVpdMapFile: VpdMapFilePath = os.path.join(self.BuildDir, TAB_FV_DIRECTORY, "%s.map" % self.Platform.VpdToolGuid) if os.path.exists(VpdMapFilePath): VpdFile.Read(VpdMapFilePath) # Fixup TAB_STAR offset for pcd in VpdSkuMap: vpdinfo = VpdFile.GetVpdInfo(pcd) if vpdinfo is None: # just pick the a value to determine whether is unicode string type continue for pcdvalue in VpdSkuMap[pcd]: for sku in VpdSkuMap[pcd][pcdvalue]: for item in vpdinfo: if item[2] == pcdvalue: sku.VpdOffset = item[1] else: EdkLogger.error("build", FILE_READ_FAILURE, "Can not find VPD map file %s to fix up VPD offset." % VpdMapFilePath) # Delete the DynamicPcdList At the last time enter into this function for Pcd in self._DynamicPcdList: # just pick the a value to determine whether is unicode string type Sku = Pcd.SkuInfoList.get(TAB_DEFAULT) Sku.VpdOffset = Sku.VpdOffset.strip() if Pcd.DatumType not in [TAB_UINT8, TAB_UINT16, TAB_UINT32, TAB_UINT64, TAB_VOID, "BOOLEAN"]: Pcd.DatumType = TAB_VOID PcdValue = Sku.DefaultValue if Pcd.DatumType == TAB_VOID and PcdValue.startswith("L"): # if found PCD which datum value is unicode string the insert to left size of UnicodeIndex UnicodePcdArray.add(Pcd) elif len(Sku.VariableName) > 0: # if found HII type PCD then insert to right of UnicodeIndex HiiPcdArray.add(Pcd) else: OtherPcdArray.add(Pcd) del self._DynamicPcdList[:] self._DynamicPcdList.extend(list(UnicodePcdArray)) self._DynamicPcdList.extend(list(HiiPcdArray)) self._DynamicPcdList.extend(list(OtherPcdArray)) allskuset = [(SkuName, Sku.SkuId) for pcd in self._DynamicPcdList for (SkuName, Sku) in pcd.SkuInfoList.items()] for pcd in self._DynamicPcdList: if len(pcd.SkuInfoList) == 1: for (SkuName, SkuId) in allskuset: if isinstance(SkuId, str) and eval(SkuId) == 0 or SkuId == 0: continue pcd.SkuInfoList[SkuName] = copy.deepcopy(pcd.SkuInfoList[TAB_DEFAULT]) pcd.SkuInfoList[SkuName].SkuId = SkuId pcd.SkuInfoList[SkuName].SkuIdName = SkuName def FixVpdOffset(self, VpdFile ): FvPath = os.path.join(self.BuildDir, TAB_FV_DIRECTORY) if not os.path.exists(FvPath): try: os.makedirs(FvPath) except: EdkLogger.error("build", FILE_WRITE_FAILURE, "Fail to create FV folder under %s" % self.BuildDir) VpdFilePath = os.path.join(FvPath, "%s.txt" % self.Platform.VpdToolGuid) if VpdFile.Write(VpdFilePath): # retrieve BPDG tool's path from tool_def.txt according to VPD_TOOL_GUID defined in DSC file. BPDGToolName = None for ToolDef in self.ToolDefinition.values(): if TAB_GUID in ToolDef and ToolDef[TAB_GUID] == self.Platform.VpdToolGuid: if "PATH" not in ToolDef: EdkLogger.error("build", ATTRIBUTE_NOT_AVAILABLE, "PATH attribute was not provided for BPDG guid tool %s in tools_def.txt" % self.Platform.VpdToolGuid) BPDGToolName = ToolDef["PATH"] break # Call third party GUID BPDG tool. if BPDGToolName is not None: VpdInfoFile.CallExtenalBPDGTool(BPDGToolName, VpdFilePath) else: EdkLogger.error("Build", FILE_NOT_FOUND, "Fail to find third-party BPDG tool to process VPD PCDs. BPDG Guid tool need to be defined in tools_def.txt and VPD_TOOL_GUID need to be provided in DSC file.") ## Return the platform build data object @cached_property def Platform(self): return self.BuildDatabase[self.MetaFile, self.Arch, self.BuildTarget, self.ToolChain] ## Return platform name @cached_property def Name(self): return self.Platform.PlatformName ## Return the meta file GUID @cached_property def Guid(self): return self.Platform.Guid ## Return the platform version @cached_property def Version(self): return self.Platform.Version ## Return the FDF file name @cached_property def FdfFile(self): if self.Workspace.FdfFile: RetVal= mws.join(self.WorkspaceDir, self.Workspace.FdfFile) else: RetVal = '' return RetVal ## Return the build output directory platform specifies @cached_property def OutputDir(self): return self.Platform.OutputDirectory ## Return the directory to store all intermediate and final files built @cached_property def BuildDir(self): if os.path.isabs(self.OutputDir): GlobalData.gBuildDirectory = RetVal = path.join( path.abspath(self.OutputDir), self.BuildTarget + "_" + self.ToolChain, ) else: GlobalData.gBuildDirectory = RetVal = path.join( self.WorkspaceDir, self.OutputDir, self.BuildTarget + "_" + self.ToolChain, ) return RetVal ## Return directory of platform makefile # # @retval string Makefile directory # @cached_property def MakeFileDir(self): return path.join(self.BuildDir, self.Arch) ## Return build command string # # @retval string Build command string # @cached_property def BuildCommand(self): RetVal = [] if "MAKE" in self.ToolDefinition and "PATH" in self.ToolDefinition["MAKE"]: RetVal += _SplitOption(self.ToolDefinition["MAKE"]["PATH"]) if "FLAGS" in self.ToolDefinition["MAKE"]: NewOption = self.ToolDefinition["MAKE"]["FLAGS"].strip() if NewOption != '': RetVal += _SplitOption(NewOption) if "MAKE" in self.EdkIIBuildOption: if "FLAGS" in self.EdkIIBuildOption["MAKE"]: Flags = self.EdkIIBuildOption["MAKE"]["FLAGS"] if Flags.startswith('='): RetVal = [RetVal[0]] + [Flags[1:]] else: RetVal.append(Flags) return RetVal ## Get tool chain definition # # Get each tool definition for given tool chain from tools_def.txt and platform # @cached_property def ToolDefinition(self): ToolDefinition = self.Workspace.ToolDef.ToolsDefTxtDictionary if TAB_TOD_DEFINES_COMMAND_TYPE not in self.Workspace.ToolDef.ToolsDefTxtDatabase: EdkLogger.error('build', RESOURCE_NOT_AVAILABLE, "No tools found in configuration", ExtraData="[%s]" % self.MetaFile) RetVal = OrderedDict() DllPathList = set() for Def in ToolDefinition: Target, Tag, Arch, Tool, Attr = Def.split("_") if Target != self.BuildTarget or Tag != self.ToolChain or Arch != self.Arch: continue Value = ToolDefinition[Def] # don't record the DLL if Attr == "DLL": DllPathList.add(Value) continue if Tool not in RetVal: RetVal[Tool] = OrderedDict() RetVal[Tool][Attr] = Value ToolsDef = '' if GlobalData.gOptions.SilentMode and "MAKE" in RetVal: if "FLAGS" not in RetVal["MAKE"]: RetVal["MAKE"]["FLAGS"] = "" RetVal["MAKE"]["FLAGS"] += " -s" MakeFlags = '' for Tool in RetVal: for Attr in RetVal[Tool]: Value = RetVal[Tool][Attr] if Tool in self._BuildOptionWithToolDef(RetVal) and Attr in self._BuildOptionWithToolDef(RetVal)[Tool]: # check if override is indicated if self._BuildOptionWithToolDef(RetVal)[Tool][Attr].startswith('='): Value = self._BuildOptionWithToolDef(RetVal)[Tool][Attr][1:] else: if Attr != 'PATH': Value += " " + self._BuildOptionWithToolDef(RetVal)[Tool][Attr] else: Value = self._BuildOptionWithToolDef(RetVal)[Tool][Attr] if Attr == "PATH": # Don't put MAKE definition in the file if Tool != "MAKE": ToolsDef += "%s = %s\n" % (Tool, Value) elif Attr != "DLL": # Don't put MAKE definition in the file if Tool == "MAKE": if Attr == "FLAGS": MakeFlags = Value else: ToolsDef += "%s_%s = %s\n" % (Tool, Attr, Value) ToolsDef += "\n" tool_def_file = os.path.join(self.MakeFileDir, "TOOLS_DEF." + self.Arch) SaveFileOnChange(tool_def_file, ToolsDef, False) for DllPath in DllPathList: os.environ["PATH"] = DllPath + os.pathsep + os.environ["PATH"] os.environ["MAKE_FLAGS"] = MakeFlags return RetVal ## Return the paths of tools @cached_property def ToolDefinitionFile(self): tool_def_file = os.path.join(self.MakeFileDir, "TOOLS_DEF." + self.Arch) if not os.path.exists(tool_def_file): self.ToolDefinition return tool_def_file ## Retrieve the toolchain family of given toolchain tag. Default to 'MSFT'. @cached_property def ToolChainFamily(self): ToolDefinition = self.Workspace.ToolDef.ToolsDefTxtDatabase if TAB_TOD_DEFINES_FAMILY not in ToolDefinition \ or self.ToolChain not in ToolDefinition[TAB_TOD_DEFINES_FAMILY] \ or not ToolDefinition[TAB_TOD_DEFINES_FAMILY][self.ToolChain]: EdkLogger.verbose("No tool chain family found in configuration for %s. Default to MSFT." \ % self.ToolChain) RetVal = TAB_COMPILER_MSFT else: RetVal = ToolDefinition[TAB_TOD_DEFINES_FAMILY][self.ToolChain] return RetVal @cached_property def BuildRuleFamily(self): ToolDefinition = self.Workspace.ToolDef.ToolsDefTxtDatabase if TAB_TOD_DEFINES_BUILDRULEFAMILY not in ToolDefinition \ or self.ToolChain not in ToolDefinition[TAB_TOD_DEFINES_BUILDRULEFAMILY] \ or not ToolDefinition[TAB_TOD_DEFINES_BUILDRULEFAMILY][self.ToolChain]: EdkLogger.verbose("No tool chain family found in configuration for %s. Default to MSFT." \ % self.ToolChain) return TAB_COMPILER_MSFT return ToolDefinition[TAB_TOD_DEFINES_BUILDRULEFAMILY][self.ToolChain] ## Return the build options specific for all modules in this platform @cached_property def BuildOption(self): return self._ExpandBuildOption(self.Platform.BuildOptions) def _BuildOptionWithToolDef(self, ToolDef): return self._ExpandBuildOption(self.Platform.BuildOptions, ToolDef=ToolDef) ## Return the build options specific for EDK modules in this platform @cached_property def EdkBuildOption(self): return self._ExpandBuildOption(self.Platform.BuildOptions, EDK_NAME) ## Return the build options specific for EDKII modules in this platform @cached_property def EdkIIBuildOption(self): return self._ExpandBuildOption(self.Platform.BuildOptions, EDKII_NAME) ## Parse build_rule.txt in Conf Directory. # # @retval BuildRule object # @cached_property def BuildRule(self): BuildRuleFile = None if TAB_TAT_DEFINES_BUILD_RULE_CONF in self.Workspace.TargetTxt.TargetTxtDictionary: BuildRuleFile = self.Workspace.TargetTxt.TargetTxtDictionary[TAB_TAT_DEFINES_BUILD_RULE_CONF] if not BuildRuleFile: BuildRuleFile = gDefaultBuildRuleFile RetVal = BuildRule(BuildRuleFile) if RetVal._FileVersion == "": RetVal._FileVersion = AutoGenReqBuildRuleVerNum else: if RetVal._FileVersion < AutoGenReqBuildRuleVerNum : # If Build Rule's version is less than the version number required by the tools, halting the build. EdkLogger.error("build", AUTOGEN_ERROR, ExtraData="The version number [%s] of build_rule.txt is less than the version number required by the AutoGen.(the minimum required version number is [%s])"\ % (RetVal._FileVersion, AutoGenReqBuildRuleVerNum)) return RetVal ## Summarize the packages used by modules in this platform @cached_property def PackageList(self): RetVal = set() for La in self.LibraryAutoGenList: RetVal.update(La.DependentPackageList) for Ma in self.ModuleAutoGenList: RetVal.update(Ma.DependentPackageList) #Collect package set information from INF of FDF for ModuleFile in self._AsBuildModuleList: if ModuleFile in self.Platform.Modules: continue ModuleData = self.BuildDatabase[ModuleFile, self.Arch, self.BuildTarget, self.ToolChain] RetVal.update(ModuleData.Packages) return list(RetVal) @cached_property def NonDynamicPcdDict(self): return {(Pcd.TokenCName, Pcd.TokenSpaceGuidCName):Pcd for Pcd in self.NonDynamicPcdList} ## Get list of non-dynamic PCDs @property def NonDynamicPcdList(self): if not self._NonDynamicPcdList: self.CollectPlatformDynamicPcds() return self._NonDynamicPcdList ## Get list of dynamic PCDs @property def DynamicPcdList(self): if not self._DynamicPcdList: self.CollectPlatformDynamicPcds() return self._DynamicPcdList ## Generate Token Number for all PCD @cached_property def PcdTokenNumber(self): RetVal = OrderedDict() TokenNumber = 1 # # Make the Dynamic and DynamicEx PCD use within different TokenNumber area. # Such as: # # Dynamic PCD: # TokenNumber 0 ~ 10 # DynamicEx PCD: # TokeNumber 11 ~ 20 # for Pcd in self.DynamicPcdList: if Pcd.Phase == "PEI" and Pcd.Type in PCD_DYNAMIC_TYPE_SET: EdkLogger.debug(EdkLogger.DEBUG_5, "%s %s (%s) -> %d" % (Pcd.TokenCName, Pcd.TokenSpaceGuidCName, Pcd.Phase, TokenNumber)) RetVal[Pcd.TokenCName, Pcd.TokenSpaceGuidCName] = TokenNumber TokenNumber += 1 for Pcd in self.DynamicPcdList: if Pcd.Phase == "PEI" and Pcd.Type in PCD_DYNAMIC_EX_TYPE_SET: EdkLogger.debug(EdkLogger.DEBUG_5, "%s %s (%s) -> %d" % (Pcd.TokenCName, Pcd.TokenSpaceGuidCName, Pcd.Phase, TokenNumber)) RetVal[Pcd.TokenCName, Pcd.TokenSpaceGuidCName] = TokenNumber TokenNumber += 1 for Pcd in self.DynamicPcdList: if Pcd.Phase == "DXE" and Pcd.Type in PCD_DYNAMIC_TYPE_SET: EdkLogger.debug(EdkLogger.DEBUG_5, "%s %s (%s) -> %d" % (Pcd.TokenCName, Pcd.TokenSpaceGuidCName, Pcd.Phase, TokenNumber)) RetVal[Pcd.TokenCName, Pcd.TokenSpaceGuidCName] = TokenNumber TokenNumber += 1 for Pcd in self.DynamicPcdList: if Pcd.Phase == "DXE" and Pcd.Type in PCD_DYNAMIC_EX_TYPE_SET: EdkLogger.debug(EdkLogger.DEBUG_5, "%s %s (%s) -> %d" % (Pcd.TokenCName, Pcd.TokenSpaceGuidCName, Pcd.Phase, TokenNumber)) RetVal[Pcd.TokenCName, Pcd.TokenSpaceGuidCName] = TokenNumber TokenNumber += 1 for Pcd in self.NonDynamicPcdList: RetVal[Pcd.TokenCName, Pcd.TokenSpaceGuidCName] = TokenNumber TokenNumber += 1 return RetVal @cached_property def _MaList(self): for ModuleFile in self.Platform.Modules: Ma = ModuleAutoGen( self.Workspace, ModuleFile, self.BuildTarget, self.ToolChain, self.Arch, self.MetaFile ) self.Platform.Modules[ModuleFile].M = Ma return [x.M for x in self.Platform.Modules.values()] ## Summarize ModuleAutoGen objects of all modules to be built for this platform @cached_property def ModuleAutoGenList(self): RetVal = [] for Ma in self._MaList: if Ma not in RetVal: RetVal.append(Ma) return RetVal ## Summarize ModuleAutoGen objects of all libraries to be built for this platform @cached_property def LibraryAutoGenList(self): RetVal = [] for Ma in self._MaList: for La in Ma.LibraryAutoGenList: if La not in RetVal: RetVal.append(La) if Ma not in La.ReferenceModules: La.ReferenceModules.append(Ma) return RetVal ## Test if a module is supported by the platform # # An error will be raised directly if the module or its arch is not supported # by the platform or current configuration # def ValidModule(self, Module): return Module in self.Platform.Modules or Module in self.Platform.LibraryInstances \ or Module in self._AsBuildModuleList ## Resolve the library classes in a module to library instances # # This method will not only resolve library classes but also sort the library # instances according to the dependency-ship. # # @param Module The module from which the library classes will be resolved # # @retval library_list List of library instances sorted # def ApplyLibraryInstance(self, Module): # Cover the case that the binary INF file is list in the FDF file but not DSC file, return empty list directly if str(Module) not in self.Platform.Modules: return [] return GetModuleLibInstances(Module, self.Platform, self.BuildDatabase, self.Arch, self.BuildTarget, self.ToolChain, self.MetaFile, EdkLogger) ## Override PCD setting (type, value, ...) # # @param ToPcd The PCD to be overridden # @param FromPcd The PCD overriding from # def _OverridePcd(self, ToPcd, FromPcd, Module="", Msg="", Library=""): # # in case there's PCDs coming from FDF file, which have no type given. # at this point, ToPcd.Type has the type found from dependent # package # TokenCName = ToPcd.TokenCName for PcdItem in GlobalData.MixedPcd: if (ToPcd.TokenCName, ToPcd.TokenSpaceGuidCName) in GlobalData.MixedPcd[PcdItem]: TokenCName = PcdItem[0] break if FromPcd is not None: if ToPcd.Pending and FromPcd.Type: ToPcd.Type = FromPcd.Type elif ToPcd.Type and FromPcd.Type\ and ToPcd.Type != FromPcd.Type and ToPcd.Type in FromPcd.Type: if ToPcd.Type.strip() == TAB_PCDS_DYNAMIC_EX: ToPcd.Type = FromPcd.Type elif ToPcd.Type and FromPcd.Type \ and ToPcd.Type != FromPcd.Type: if Library: Module = str(Module) + " 's library file (" + str(Library) + ")" EdkLogger.error("build", OPTION_CONFLICT, "Mismatched PCD type", ExtraData="%s.%s is used as [%s] in module %s, but as [%s] in %s."\ % (ToPcd.TokenSpaceGuidCName, TokenCName, ToPcd.Type, Module, FromPcd.Type, Msg), File=self.MetaFile) if FromPcd.MaxDatumSize: ToPcd.MaxDatumSize = FromPcd.MaxDatumSize ToPcd.MaxSizeUserSet = FromPcd.MaxDatumSize if FromPcd.DefaultValue: ToPcd.DefaultValue = FromPcd.DefaultValue if FromPcd.TokenValue: ToPcd.TokenValue = FromPcd.TokenValue if FromPcd.DatumType: ToPcd.DatumType = FromPcd.DatumType if FromPcd.SkuInfoList: ToPcd.SkuInfoList = FromPcd.SkuInfoList if FromPcd.UserDefinedDefaultStoresFlag: ToPcd.UserDefinedDefaultStoresFlag = FromPcd.UserDefinedDefaultStoresFlag # Add Flexible PCD format parse if ToPcd.DefaultValue: try: ToPcd.DefaultValue = ValueExpressionEx(ToPcd.DefaultValue, ToPcd.DatumType, self.Workspace._GuidDict)(True) except BadExpression as Value: EdkLogger.error('Parser', FORMAT_INVALID, 'PCD [%s.%s] Value "%s", %s' %(ToPcd.TokenSpaceGuidCName, ToPcd.TokenCName, ToPcd.DefaultValue, Value), File=self.MetaFile) # check the validation of datum IsValid, Cause = CheckPcdDatum(ToPcd.DatumType, ToPcd.DefaultValue) if not IsValid: EdkLogger.error('build', FORMAT_INVALID, Cause, File=self.MetaFile, ExtraData="%s.%s" % (ToPcd.TokenSpaceGuidCName, TokenCName)) ToPcd.validateranges = FromPcd.validateranges ToPcd.validlists = FromPcd.validlists ToPcd.expressions = FromPcd.expressions ToPcd.CustomAttribute = FromPcd.CustomAttribute if FromPcd is not None and ToPcd.DatumType == TAB_VOID and not ToPcd.MaxDatumSize: EdkLogger.debug(EdkLogger.DEBUG_9, "No MaxDatumSize specified for PCD %s.%s" \ % (ToPcd.TokenSpaceGuidCName, TokenCName)) Value = ToPcd.DefaultValue if not Value: ToPcd.MaxDatumSize = '1' elif Value[0] == 'L': ToPcd.MaxDatumSize = str((len(Value) - 2) * 2) elif Value[0] == '{': ToPcd.MaxDatumSize = str(len(Value.split(','))) else: ToPcd.MaxDatumSize = str(len(Value) - 1) # apply default SKU for dynamic PCDS if specified one is not available if (ToPcd.Type in PCD_DYNAMIC_TYPE_SET or ToPcd.Type in PCD_DYNAMIC_EX_TYPE_SET) \ and not ToPcd.SkuInfoList: if self.Platform.SkuName in self.Platform.SkuIds: SkuName = self.Platform.SkuName else: SkuName = TAB_DEFAULT ToPcd.SkuInfoList = { SkuName : SkuInfoClass(SkuName, self.Platform.SkuIds[SkuName][0], '', '', '', '', '', ToPcd.DefaultValue) } ## Apply PCD setting defined platform to a module # # @param Module The module from which the PCD setting will be overridden # # @retval PCD_list The list PCDs with settings from platform # def ApplyPcdSetting(self, Module, Pcds, Library=""): # for each PCD in module for Name, Guid in Pcds: PcdInModule = Pcds[Name, Guid] # find out the PCD setting in platform if (Name, Guid) in self.Platform.Pcds: PcdInPlatform = self.Platform.Pcds[Name, Guid] else: PcdInPlatform = None # then override the settings if any self._OverridePcd(PcdInModule, PcdInPlatform, Module, Msg="DSC PCD sections", Library=Library) # resolve the VariableGuid value for SkuId in PcdInModule.SkuInfoList: Sku = PcdInModule.SkuInfoList[SkuId] if Sku.VariableGuid == '': continue Sku.VariableGuidValue = GuidValue(Sku.VariableGuid, self.PackageList, self.MetaFile.Path) if Sku.VariableGuidValue is None: PackageList = "\n\t".join(str(P) for P in self.PackageList) EdkLogger.error( 'build', RESOURCE_NOT_AVAILABLE, "Value of GUID [%s] is not found in" % Sku.VariableGuid, ExtraData=PackageList + "\n\t(used with %s.%s from module %s)" \ % (Guid, Name, str(Module)), File=self.MetaFile ) # override PCD settings with module specific setting if Module in self.Platform.Modules: PlatformModule = self.Platform.Modules[str(Module)] for Key in PlatformModule.Pcds: if GlobalData.BuildOptionPcd: for pcd in GlobalData.BuildOptionPcd: (TokenSpaceGuidCName, TokenCName, FieldName, pcdvalue, _) = pcd if (TokenCName, TokenSpaceGuidCName) == Key and FieldName =="": PlatformModule.Pcds[Key].DefaultValue = pcdvalue PlatformModule.Pcds[Key].PcdValueFromComm = pcdvalue break Flag = False if Key in Pcds: ToPcd = Pcds[Key] Flag = True elif Key in GlobalData.MixedPcd: for PcdItem in GlobalData.MixedPcd[Key]: if PcdItem in Pcds: ToPcd = Pcds[PcdItem] Flag = True break if Flag: self._OverridePcd(ToPcd, PlatformModule.Pcds[Key], Module, Msg="DSC Components Module scoped PCD section", Library=Library) # use PCD value to calculate the MaxDatumSize when it is not specified for Name, Guid in Pcds: Pcd = Pcds[Name, Guid] if Pcd.DatumType == TAB_VOID and not Pcd.MaxDatumSize: Pcd.MaxSizeUserSet = None Value = Pcd.DefaultValue if not Value: Pcd.MaxDatumSize = '1' elif Value[0] == 'L': Pcd.MaxDatumSize = str((len(Value) - 2) * 2) elif Value[0] == '{': Pcd.MaxDatumSize = str(len(Value.split(','))) else: Pcd.MaxDatumSize = str(len(Value) - 1) return list(Pcds.values()) ## Calculate the priority value of the build option # # @param Key Build option definition contain: TARGET_TOOLCHAIN_ARCH_COMMANDTYPE_ATTRIBUTE # # @retval Value Priority value based on the priority list. # def CalculatePriorityValue(self, Key): Target, ToolChain, Arch, CommandType, Attr = Key.split('_') PriorityValue = 0x11111 if Target == TAB_STAR: PriorityValue &= 0x01111 if ToolChain == TAB_STAR: PriorityValue &= 0x10111 if Arch == TAB_STAR: PriorityValue &= 0x11011 if CommandType == TAB_STAR: PriorityValue &= 0x11101 if Attr == TAB_STAR: PriorityValue &= 0x11110 return self.PrioList["0x%0.5x" % PriorityValue] ## Expand * in build option key # # @param Options Options to be expanded # @param ToolDef Use specified ToolDef instead of full version. # This is needed during initialization to prevent # infinite recursion betweeh BuildOptions, # ToolDefinition, and this function. # # @retval options Options expanded # def _ExpandBuildOption(self, Options, ModuleStyle=None, ToolDef=None): if not ToolDef: ToolDef = self.ToolDefinition BuildOptions = {} FamilyMatch = False FamilyIsNull = True OverrideList = {} # # Construct a list contain the build options which need override. # for Key in Options: # # Key[0] -- tool family # Key[1] -- TARGET_TOOLCHAIN_ARCH_COMMANDTYPE_ATTRIBUTE # if (Key[0] == self.BuildRuleFamily and (ModuleStyle is None or len(Key) < 3 or (len(Key) > 2 and Key[2] == ModuleStyle))): Target, ToolChain, Arch, CommandType, Attr = Key[1].split('_') if (Target == self.BuildTarget or Target == TAB_STAR) and\ (ToolChain == self.ToolChain or ToolChain == TAB_STAR) and\ (Arch == self.Arch or Arch == TAB_STAR) and\ Options[Key].startswith("="): if OverrideList.get(Key[1]) is not None: OverrideList.pop(Key[1]) OverrideList[Key[1]] = Options[Key] # # Use the highest priority value. # if (len(OverrideList) >= 2): KeyList = list(OverrideList.keys()) for Index in range(len(KeyList)): NowKey = KeyList[Index] Target1, ToolChain1, Arch1, CommandType1, Attr1 = NowKey.split("_") for Index1 in range(len(KeyList) - Index - 1): NextKey = KeyList[Index1 + Index + 1] # # Compare two Key, if one is included by another, choose the higher priority one # Target2, ToolChain2, Arch2, CommandType2, Attr2 = NextKey.split("_") if (Target1 == Target2 or Target1 == TAB_STAR or Target2 == TAB_STAR) and\ (ToolChain1 == ToolChain2 or ToolChain1 == TAB_STAR or ToolChain2 == TAB_STAR) and\ (Arch1 == Arch2 or Arch1 == TAB_STAR or Arch2 == TAB_STAR) and\ (CommandType1 == CommandType2 or CommandType1 == TAB_STAR or CommandType2 == TAB_STAR) and\ (Attr1 == Attr2 or Attr1 == TAB_STAR or Attr2 == TAB_STAR): if self.CalculatePriorityValue(NowKey) > self.CalculatePriorityValue(NextKey): if Options.get((self.BuildRuleFamily, NextKey)) is not None: Options.pop((self.BuildRuleFamily, NextKey)) else: if Options.get((self.BuildRuleFamily, NowKey)) is not None: Options.pop((self.BuildRuleFamily, NowKey)) for Key in Options: if ModuleStyle is not None and len (Key) > 2: # Check Module style is EDK or EDKII. # Only append build option for the matched style module. if ModuleStyle == EDK_NAME and Key[2] != EDK_NAME: continue elif ModuleStyle == EDKII_NAME and Key[2] != EDKII_NAME: continue Family = Key[0] Target, Tag, Arch, Tool, Attr = Key[1].split("_") # if tool chain family doesn't match, skip it if Tool in ToolDef and Family != "": FamilyIsNull = False if ToolDef[Tool].get(TAB_TOD_DEFINES_BUILDRULEFAMILY, "") != "": if Family != ToolDef[Tool][TAB_TOD_DEFINES_BUILDRULEFAMILY]: continue elif Family != ToolDef[Tool][TAB_TOD_DEFINES_FAMILY]: continue FamilyMatch = True # expand any wildcard if Target == TAB_STAR or Target == self.BuildTarget: if Tag == TAB_STAR or Tag == self.ToolChain: if Arch == TAB_STAR or Arch == self.Arch: if Tool not in BuildOptions: BuildOptions[Tool] = {} if Attr != "FLAGS" or Attr not in BuildOptions[Tool] or Options[Key].startswith('='): BuildOptions[Tool][Attr] = Options[Key] else: # append options for the same tool except PATH if Attr != 'PATH': BuildOptions[Tool][Attr] += " " + Options[Key] else: BuildOptions[Tool][Attr] = Options[Key] # Build Option Family has been checked, which need't to be checked again for family. if FamilyMatch or FamilyIsNull: return BuildOptions for Key in Options: if ModuleStyle is not None and len (Key) > 2: # Check Module style is EDK or EDKII. # Only append build option for the matched style module. if ModuleStyle == EDK_NAME and Key[2] != EDK_NAME: continue elif ModuleStyle == EDKII_NAME and Key[2] != EDKII_NAME: continue Family = Key[0] Target, Tag, Arch, Tool, Attr = Key[1].split("_") # if tool chain family doesn't match, skip it if Tool not in ToolDef or Family == "": continue # option has been added before if Family != ToolDef[Tool][TAB_TOD_DEFINES_FAMILY]: continue # expand any wildcard if Target == TAB_STAR or Target == self.BuildTarget: if Tag == TAB_STAR or Tag == self.ToolChain: if Arch == TAB_STAR or Arch == self.Arch: if Tool not in BuildOptions: BuildOptions[Tool] = {} if Attr != "FLAGS" or Attr not in BuildOptions[Tool] or Options[Key].startswith('='): BuildOptions[Tool][Attr] = Options[Key] else: # append options for the same tool except PATH if Attr != 'PATH': BuildOptions[Tool][Attr] += " " + Options[Key] else: BuildOptions[Tool][Attr] = Options[Key] return BuildOptions ## Append build options in platform to a module # # @param Module The module to which the build options will be appended # # @retval options The options appended with build options in platform # def ApplyBuildOption(self, Module): # Get the different options for the different style module PlatformOptions = self.EdkIIBuildOption ModuleTypeOptions = self.Platform.GetBuildOptionsByModuleType(EDKII_NAME, Module.ModuleType) ModuleTypeOptions = self._ExpandBuildOption(ModuleTypeOptions) ModuleOptions = self._ExpandBuildOption(Module.BuildOptions) if Module in self.Platform.Modules: PlatformModule = self.Platform.Modules[str(Module)] PlatformModuleOptions = self._ExpandBuildOption(PlatformModule.BuildOptions) else: PlatformModuleOptions = {} BuildRuleOrder = None for Options in [self.ToolDefinition, ModuleOptions, PlatformOptions, ModuleTypeOptions, PlatformModuleOptions]: for Tool in Options: for Attr in Options[Tool]: if Attr == TAB_TOD_DEFINES_BUILDRULEORDER: BuildRuleOrder = Options[Tool][Attr] AllTools = set(list(ModuleOptions.keys()) + list(PlatformOptions.keys()) + list(PlatformModuleOptions.keys()) + list(ModuleTypeOptions.keys()) + list(self.ToolDefinition.keys())) BuildOptions = defaultdict(lambda: defaultdict(str)) for Tool in AllTools: for Options in [self.ToolDefinition, ModuleOptions, PlatformOptions, ModuleTypeOptions, PlatformModuleOptions]: if Tool not in Options: continue for Attr in Options[Tool]: # # Do not generate it in Makefile # if Attr == TAB_TOD_DEFINES_BUILDRULEORDER: continue Value = Options[Tool][Attr] # check if override is indicated if Value.startswith('='): BuildOptions[Tool][Attr] = mws.handleWsMacro(Value[1:]) else: if Attr != 'PATH': BuildOptions[Tool][Attr] += " " + mws.handleWsMacro(Value) else: BuildOptions[Tool][Attr] = mws.handleWsMacro(Value) return BuildOptions, BuildRuleOrder # # extend lists contained in a dictionary with lists stored in another dictionary # if CopyToDict is not derived from DefaultDict(list) then this may raise exception # def ExtendCopyDictionaryLists(CopyToDict, CopyFromDict): for Key in CopyFromDict: CopyToDict[Key].extend(CopyFromDict[Key]) # Create a directory specified by a set of path elements and return the full path def _MakeDir(PathList): RetVal = path.join(*PathList) CreateDirectory(RetVal) return RetVal ## ModuleAutoGen class # # This class encapsules the AutoGen behaviors for the build tools. In addition to # the generation of AutoGen.h and AutoGen.c, it will generate *.depex file according # to the [depex] section in module's inf file. # class ModuleAutoGen(AutoGen): # call super().__init__ then call the worker function with different parameter count def __init__(self, Workspace, MetaFile, Target, Toolchain, Arch, *args, **kwargs): if not hasattr(self, "_Init"): self._InitWorker(Workspace, MetaFile, Target, Toolchain, Arch, *args) self._Init = True ## Cache the timestamps of metafiles of every module in a class attribute # TimeDict = {} def __new__(cls, Workspace, MetaFile, Target, Toolchain, Arch, *args, **kwargs): # check if this module is employed by active platform if not PlatformAutoGen(Workspace, args[0], Target, Toolchain, Arch).ValidModule(MetaFile): EdkLogger.verbose("Module [%s] for [%s] is not employed by active platform\n" \ % (MetaFile, Arch)) return None return super(ModuleAutoGen, cls).__new__(cls, Workspace, MetaFile, Target, Toolchain, Arch, *args, **kwargs) ## Initialize ModuleAutoGen # # @param Workspace EdkIIWorkspaceBuild object # @param ModuleFile The path of module file # @param Target Build target (DEBUG, RELEASE) # @param Toolchain Name of tool chain # @param Arch The arch the module supports # @param PlatformFile Platform meta-file # def _InitWorker(self, Workspace, ModuleFile, Target, Toolchain, Arch, PlatformFile): EdkLogger.debug(EdkLogger.DEBUG_9, "AutoGen module [%s] [%s]" % (ModuleFile, Arch)) GlobalData.gProcessingFile = "%s [%s, %s, %s]" % (ModuleFile, Arch, Toolchain, Target) self.Workspace = Workspace self.WorkspaceDir = Workspace.WorkspaceDir self.MetaFile = ModuleFile self.PlatformInfo = PlatformAutoGen(Workspace, PlatformFile, Target, Toolchain, Arch) self.SourceDir = self.MetaFile.SubDir self.SourceDir = mws.relpath(self.SourceDir, self.WorkspaceDir) self.ToolChain = Toolchain self.BuildTarget = Target self.Arch = Arch self.ToolChainFamily = self.PlatformInfo.ToolChainFamily self.BuildRuleFamily = self.PlatformInfo.BuildRuleFamily self.IsCodeFileCreated = False self.IsAsBuiltInfCreated = False self.DepexGenerated = False self.BuildDatabase = self.Workspace.BuildDatabase self.BuildRuleOrder = None self.BuildTime = 0 self._PcdComments = OrderedListDict() self._GuidComments = OrderedListDict() self._ProtocolComments = OrderedListDict() self._PpiComments = OrderedListDict() self._BuildTargets = None self._IntroBuildTargetList = None self._FinalBuildTargetList = None self._FileTypes = None self.AutoGenDepSet = set() self.ReferenceModules = [] self.ConstPcd = {} ## hash() operator of ModuleAutoGen # # The module file path and arch string will be used to represent # hash value of this object # # @retval int Hash value of the module file path and arch # @cached_class_function def __hash__(self): return hash((self.MetaFile, self.Arch)) def __repr__(self): return "%s [%s]" % (self.MetaFile, self.Arch) # Get FixedAtBuild Pcds of this Module @cached_property def FixedAtBuildPcds(self): RetVal = [] for Pcd in self.ModulePcdList: if Pcd.Type != TAB_PCDS_FIXED_AT_BUILD: continue if Pcd not in RetVal: RetVal.append(Pcd) return RetVal @cached_property def FixedVoidTypePcds(self): RetVal = {} for Pcd in self.FixedAtBuildPcds: if Pcd.DatumType == TAB_VOID: if '{}.{}'.format(Pcd.TokenSpaceGuidCName, Pcd.TokenCName) not in RetVal: RetVal['{}.{}'.format(Pcd.TokenSpaceGuidCName, Pcd.TokenCName)] = Pcd.DefaultValue return RetVal @property def UniqueBaseName(self): BaseName = self.Name for Module in self.PlatformInfo.ModuleAutoGenList: if Module.MetaFile == self.MetaFile: continue if Module.Name == self.Name: if uuid.UUID(Module.Guid) == uuid.UUID(self.Guid): EdkLogger.error("build", FILE_DUPLICATED, 'Modules have same BaseName and FILE_GUID:\n' ' %s\n %s' % (Module.MetaFile, self.MetaFile)) BaseName = '%s_%s' % (self.Name, self.Guid) return BaseName # Macros could be used in build_rule.txt (also Makefile) @cached_property def Macros(self): return OrderedDict(( ("WORKSPACE" ,self.WorkspaceDir), ("MODULE_NAME" ,self.Name), ("MODULE_NAME_GUID" ,self.UniqueBaseName), ("MODULE_GUID" ,self.Guid), ("MODULE_VERSION" ,self.Version), ("MODULE_TYPE" ,self.ModuleType), ("MODULE_FILE" ,str(self.MetaFile)), ("MODULE_FILE_BASE_NAME" ,self.MetaFile.BaseName), ("MODULE_RELATIVE_DIR" ,self.SourceDir), ("MODULE_DIR" ,self.SourceDir), ("BASE_NAME" ,self.Name), ("ARCH" ,self.Arch), ("TOOLCHAIN" ,self.ToolChain), ("TOOLCHAIN_TAG" ,self.ToolChain), ("TOOL_CHAIN_TAG" ,self.ToolChain), ("TARGET" ,self.BuildTarget), ("BUILD_DIR" ,self.PlatformInfo.BuildDir), ("BIN_DIR" ,os.path.join(self.PlatformInfo.BuildDir, self.Arch)), ("LIB_DIR" ,os.path.join(self.PlatformInfo.BuildDir, self.Arch)), ("MODULE_BUILD_DIR" ,self.BuildDir), ("OUTPUT_DIR" ,self.OutputDir), ("DEBUG_DIR" ,self.DebugDir), ("DEST_DIR_OUTPUT" ,self.OutputDir), ("DEST_DIR_DEBUG" ,self.DebugDir), ("PLATFORM_NAME" ,self.PlatformInfo.Name), ("PLATFORM_GUID" ,self.PlatformInfo.Guid), ("PLATFORM_VERSION" ,self.PlatformInfo.Version), ("PLATFORM_RELATIVE_DIR" ,self.PlatformInfo.SourceDir), ("PLATFORM_DIR" ,mws.join(self.WorkspaceDir, self.PlatformInfo.SourceDir)), ("PLATFORM_OUTPUT_DIR" ,self.PlatformInfo.OutputDir), ("FFS_OUTPUT_DIR" ,self.FfsOutputDir) )) ## Return the module build data object @cached_property def Module(self): return self.BuildDatabase[self.MetaFile, self.Arch, self.BuildTarget, self.ToolChain] ## Return the module name @cached_property def Name(self): return self.Module.BaseName ## Return the module DxsFile if exist @cached_property def DxsFile(self): return self.Module.DxsFile ## Return the module meta-file GUID @cached_property def Guid(self): # # To build same module more than once, the module path with FILE_GUID overridden has # the file name FILE_GUIDmodule.inf, but the relative path (self.MetaFile.File) is the real path # in DSC. The overridden GUID can be retrieved from file name # if os.path.basename(self.MetaFile.File) != os.path.basename(self.MetaFile.Path): # # Length of GUID is 36 # return os.path.basename(self.MetaFile.Path)[:36] return self.Module.Guid ## Return the module version @cached_property def Version(self): return self.Module.Version ## Return the module type @cached_property def ModuleType(self): return self.Module.ModuleType ## Return the component type (for Edk.x style of module) @cached_property def ComponentType(self): return self.Module.ComponentType ## Return the build type @cached_property def BuildType(self): return self.Module.BuildType ## Return the PCD_IS_DRIVER setting @cached_property def PcdIsDriver(self): return self.Module.PcdIsDriver ## Return the autogen version, i.e. module meta-file version @cached_property def AutoGenVersion(self): return self.Module.AutoGenVersion ## Check if the module is library or not @cached_property def IsLibrary(self): return bool(self.Module.LibraryClass) ## Check if the module is binary module or not @cached_property def IsBinaryModule(self): return self.Module.IsBinaryModule ## Return the directory to store intermediate files of the module @cached_property def BuildDir(self): return _MakeDir(( self.PlatformInfo.BuildDir, self.Arch, self.SourceDir, self.MetaFile.BaseName )) ## Return the directory to store the intermediate object files of the module @cached_property def OutputDir(self): return _MakeDir((self.BuildDir, "OUTPUT")) ## Return the directory path to store ffs file @cached_property def FfsOutputDir(self): if GlobalData.gFdfParser: return path.join(self.PlatformInfo.BuildDir, TAB_FV_DIRECTORY, "Ffs", self.Guid + self.Name) return '' ## Return the directory to store auto-gened source files of the module @cached_property def DebugDir(self): return _MakeDir((self.BuildDir, "DEBUG")) ## Return the path of custom file @cached_property def CustomMakefile(self): RetVal = {} for Type in self.Module.CustomMakefile: MakeType = gMakeTypeMap[Type] if Type in gMakeTypeMap else 'nmake' File = os.path.join(self.SourceDir, self.Module.CustomMakefile[Type]) RetVal[MakeType] = File return RetVal ## Return the directory of the makefile # # @retval string The directory string of module's makefile # @cached_property def MakeFileDir(self): return self.BuildDir ## Return build command string # # @retval string Build command string # @cached_property def BuildCommand(self): return self.PlatformInfo.BuildCommand ## Get object list of all packages the module and its dependent libraries belong to # # @retval list The list of package object # @cached_property def DerivedPackageList(self): PackageList = [] for M in [self.Module] + self.DependentLibraryList: for Package in M.Packages: if Package in PackageList: continue PackageList.append(Package) return PackageList ## Get the depex string # # @return : a string contain all depex expression. def _GetDepexExpresionString(self): DepexStr = '' DepexList = [] ## DPX_SOURCE IN Define section. if self.Module.DxsFile: return DepexStr for M in [self.Module] + self.DependentLibraryList: Filename = M.MetaFile.Path InfObj = InfSectionParser.InfSectionParser(Filename) DepexExpressionList = InfObj.GetDepexExpresionList() for DepexExpression in DepexExpressionList: for key in DepexExpression: Arch, ModuleType = key DepexExpr = [x for x in DepexExpression[key] if not str(x).startswith('#')] # the type of build module is USER_DEFINED. # All different DEPEX section tags would be copied into the As Built INF file # and there would be separate DEPEX section tags if self.ModuleType.upper() == SUP_MODULE_USER_DEFINED or self.ModuleType.upper() == SUP_MODULE_HOST_APPLICATION: if (Arch.upper() == self.Arch.upper()) and (ModuleType.upper() != TAB_ARCH_COMMON): DepexList.append({(Arch, ModuleType): DepexExpr}) else: if Arch.upper() == TAB_ARCH_COMMON or \ (Arch.upper() == self.Arch.upper() and \ ModuleType.upper() in [TAB_ARCH_COMMON, self.ModuleType.upper()]): DepexList.append({(Arch, ModuleType): DepexExpr}) #the type of build module is USER_DEFINED. if self.ModuleType.upper() == SUP_MODULE_USER_DEFINED or self.ModuleType.upper() == SUP_MODULE_HOST_APPLICATION: for Depex in DepexList: for key in Depex: DepexStr += '[Depex.%s.%s]\n' % key DepexStr += '\n'.join('# '+ val for val in Depex[key]) DepexStr += '\n\n' if not DepexStr: return '[Depex.%s]\n' % self.Arch return DepexStr #the type of build module not is USER_DEFINED. Count = 0 for Depex in DepexList: Count += 1 if DepexStr != '': DepexStr += ' AND ' DepexStr += '(' for D in Depex.values(): DepexStr += ' '.join(val for val in D) Index = DepexStr.find('END') if Index > -1 and Index == len(DepexStr) - 3: DepexStr = DepexStr[:-3] DepexStr = DepexStr.strip() DepexStr += ')' if Count == 1: DepexStr = DepexStr.lstrip('(').rstrip(')').strip() if not DepexStr: return '[Depex.%s]\n' % self.Arch return '[Depex.%s]\n# ' % self.Arch + DepexStr ## Merge dependency expression # # @retval list The token list of the dependency expression after parsed # @cached_property def DepexList(self): if self.DxsFile or self.IsLibrary or TAB_DEPENDENCY_EXPRESSION_FILE in self.FileTypes: return {} DepexList = [] # # Append depex from dependent libraries, if not "BEFORE", "AFTER" expression # for M in [self.Module] + self.DependentLibraryList: Inherited = False for D in M.Depex[self.Arch, self.ModuleType]: if DepexList != []: DepexList.append('AND') DepexList.append('(') #replace D with value if D is FixedAtBuild PCD NewList = [] for item in D: if '.' not in item: NewList.append(item) else: FixedVoidTypePcds = {} if item in self.FixedVoidTypePcds: FixedVoidTypePcds = self.FixedVoidTypePcds elif M in self.PlatformInfo.LibraryAutoGenList: Index = self.PlatformInfo.LibraryAutoGenList.index(M) FixedVoidTypePcds = self.PlatformInfo.LibraryAutoGenList[Index].FixedVoidTypePcds if item not in FixedVoidTypePcds: EdkLogger.error("build", FORMAT_INVALID, "{} used in [Depex] section should be used as FixedAtBuild type and VOID* datum type in the module.".format(item)) else: Value = FixedVoidTypePcds[item] if len(Value.split(',')) != 16: EdkLogger.error("build", FORMAT_INVALID, "{} used in [Depex] section should be used as FixedAtBuild type and VOID* datum type and 16 bytes in the module.".format(item)) NewList.append(Value) DepexList.extend(NewList) if DepexList[-1] == 'END': # no need of a END at this time DepexList.pop() DepexList.append(')') Inherited = True if Inherited: EdkLogger.verbose("DEPEX[%s] (+%s) = %s" % (self.Name, M.BaseName, DepexList)) if 'BEFORE' in DepexList or 'AFTER' in DepexList: break if len(DepexList) > 0: EdkLogger.verbose('') return {self.ModuleType:DepexList} ## Merge dependency expression # # @retval list The token list of the dependency expression after parsed # @cached_property def DepexExpressionDict(self): if self.DxsFile or self.IsLibrary or TAB_DEPENDENCY_EXPRESSION_FILE in self.FileTypes: return {} DepexExpressionString = '' # # Append depex from dependent libraries, if not "BEFORE", "AFTER" expresion # for M in [self.Module] + self.DependentLibraryList: Inherited = False for D in M.DepexExpression[self.Arch, self.ModuleType]: if DepexExpressionString != '': DepexExpressionString += ' AND ' DepexExpressionString += '(' DepexExpressionString += D DepexExpressionString = DepexExpressionString.rstrip('END').strip() DepexExpressionString += ')' Inherited = True if Inherited: EdkLogger.verbose("DEPEX[%s] (+%s) = %s" % (self.Name, M.BaseName, DepexExpressionString)) if 'BEFORE' in DepexExpressionString or 'AFTER' in DepexExpressionString: break if len(DepexExpressionString) > 0: EdkLogger.verbose('') return {self.ModuleType:DepexExpressionString} # Get the tiano core user extension, it is contain dependent library. # @retval: a list contain tiano core userextension. # def _GetTianoCoreUserExtensionList(self): TianoCoreUserExtentionList = [] for M in [self.Module] + self.DependentLibraryList: Filename = M.MetaFile.Path InfObj = InfSectionParser.InfSectionParser(Filename) TianoCoreUserExtenList = InfObj.GetUserExtensionTianoCore() for TianoCoreUserExtent in TianoCoreUserExtenList: for Section in TianoCoreUserExtent: ItemList = Section.split(TAB_SPLIT) Arch = self.Arch if len(ItemList) == 4: Arch = ItemList[3] if Arch.upper() == TAB_ARCH_COMMON or Arch.upper() == self.Arch.upper(): TianoCoreList = [] TianoCoreList.extend([TAB_SECTION_START + Section + TAB_SECTION_END]) TianoCoreList.extend(TianoCoreUserExtent[Section][:]) TianoCoreList.append('\n') TianoCoreUserExtentionList.append(TianoCoreList) return TianoCoreUserExtentionList ## Return the list of specification version required for the module # # @retval list The list of specification defined in module file # @cached_property def Specification(self): return self.Module.Specification ## Tool option for the module build # # @param PlatformInfo The object of PlatformBuildInfo # @retval dict The dict containing valid options # @cached_property def BuildOption(self): RetVal, self.BuildRuleOrder = self.PlatformInfo.ApplyBuildOption(self.Module) if self.BuildRuleOrder: self.BuildRuleOrder = ['.%s' % Ext for Ext in self.BuildRuleOrder.split()] return RetVal ## Get include path list from tool option for the module build # # @retval list The include path list # @cached_property def BuildOptionIncPathList(self): # # Regular expression for finding Include Directories, the difference between MSFT and INTEL/GCC/RVCT # is the former use /I , the Latter used -I to specify include directories # if self.PlatformInfo.ToolChainFamily in (TAB_COMPILER_MSFT): BuildOptIncludeRegEx = gBuildOptIncludePatternMsft elif self.PlatformInfo.ToolChainFamily in ('INTEL', 'GCC', 'RVCT'): BuildOptIncludeRegEx = gBuildOptIncludePatternOther else: # # New ToolChainFamily, don't known whether there is option to specify include directories # return [] RetVal = [] for Tool in ('CC', 'PP', 'VFRPP', 'ASLPP', 'ASLCC', 'APP', 'ASM'): try: FlagOption = self.BuildOption[Tool]['FLAGS'] except KeyError: FlagOption = '' if self.ToolChainFamily != 'RVCT': IncPathList = [NormPath(Path, self.Macros) for Path in BuildOptIncludeRegEx.findall(FlagOption)] else: # # RVCT may specify a list of directory separated by commas # IncPathList = [] for Path in BuildOptIncludeRegEx.findall(FlagOption): PathList = GetSplitList(Path, TAB_COMMA_SPLIT) IncPathList.extend(NormPath(PathEntry, self.Macros) for PathEntry in PathList) # # EDK II modules must not reference header files outside of the packages they depend on or # within the module's directory tree. Report error if violation. # if GlobalData.gDisableIncludePathCheck == False: for Path in IncPathList: if (Path not in self.IncludePathList) and (CommonPath([Path, self.MetaFile.Dir]) != self.MetaFile.Dir): ErrMsg = "The include directory for the EDK II module in this line is invalid %s specified in %s FLAGS '%s'" % (Path, Tool, FlagOption) EdkLogger.error("build", PARAMETER_INVALID, ExtraData=ErrMsg, File=str(self.MetaFile)) RetVal += IncPathList return RetVal ## Return a list of files which can be built from source # # What kind of files can be built is determined by build rules in # $(CONF_DIRECTORY)/build_rule.txt and toolchain family. # @cached_property def SourceFileList(self): RetVal = [] ToolChainTagSet = {"", TAB_STAR, self.ToolChain} ToolChainFamilySet = {"", TAB_STAR, self.ToolChainFamily, self.BuildRuleFamily} for F in self.Module.Sources: # match tool chain if F.TagName not in ToolChainTagSet: EdkLogger.debug(EdkLogger.DEBUG_9, "The toolchain [%s] for processing file [%s] is found, " "but [%s] is currently used" % (F.TagName, str(F), self.ToolChain)) continue # match tool chain family or build rule family if F.ToolChainFamily not in ToolChainFamilySet: EdkLogger.debug( EdkLogger.DEBUG_0, "The file [%s] must be built by tools of [%s], " \ "but current toolchain family is [%s], buildrule family is [%s]" \ % (str(F), F.ToolChainFamily, self.ToolChainFamily, self.BuildRuleFamily)) continue # add the file path into search path list for file including if F.Dir not in self.IncludePathList: self.IncludePathList.insert(0, F.Dir) RetVal.append(F) self._MatchBuildRuleOrder(RetVal) for F in RetVal: self._ApplyBuildRule(F, TAB_UNKNOWN_FILE) return RetVal def _MatchBuildRuleOrder(self, FileList): Order_Dict = {} self.BuildOption for SingleFile in FileList: if self.BuildRuleOrder and SingleFile.Ext in self.BuildRuleOrder and SingleFile.Ext in self.BuildRules: key = SingleFile.Path.rsplit(SingleFile.Ext,1)[0] if key in Order_Dict: Order_Dict[key].append(SingleFile.Ext) else: Order_Dict[key] = [SingleFile.Ext] RemoveList = [] for F in Order_Dict: if len(Order_Dict[F]) > 1: Order_Dict[F].sort(key=lambda i: self.BuildRuleOrder.index(i)) for Ext in Order_Dict[F][1:]: RemoveList.append(F + Ext) for item in RemoveList: FileList.remove(item) return FileList ## Return the list of unicode files @cached_property def UnicodeFileList(self): return self.FileTypes.get(TAB_UNICODE_FILE,[]) ## Return the list of vfr files @cached_property def VfrFileList(self): return self.FileTypes.get(TAB_VFR_FILE, []) ## Return the list of Image Definition files @cached_property def IdfFileList(self): return self.FileTypes.get(TAB_IMAGE_FILE,[]) ## Return a list of files which can be built from binary # # "Build" binary files are just to copy them to build directory. # # @retval list The list of files which can be built later # @cached_property def BinaryFileList(self): RetVal = [] for F in self.Module.Binaries: if F.Target not in [TAB_ARCH_COMMON, TAB_STAR] and F.Target != self.BuildTarget: continue RetVal.append(F) self._ApplyBuildRule(F, F.Type, BinaryFileList=RetVal) return RetVal @cached_property def BuildRules(self): RetVal = {} BuildRuleDatabase = self.PlatformInfo.BuildRule for Type in BuildRuleDatabase.FileTypeList: #first try getting build rule by BuildRuleFamily RuleObject = BuildRuleDatabase[Type, self.BuildType, self.Arch, self.BuildRuleFamily] if not RuleObject: # build type is always module type, but ... if self.ModuleType != self.BuildType: RuleObject = BuildRuleDatabase[Type, self.ModuleType, self.Arch, self.BuildRuleFamily] #second try getting build rule by ToolChainFamily if not RuleObject: RuleObject = BuildRuleDatabase[Type, self.BuildType, self.Arch, self.ToolChainFamily] if not RuleObject: # build type is always module type, but ... if self.ModuleType != self.BuildType: RuleObject = BuildRuleDatabase[Type, self.ModuleType, self.Arch, self.ToolChainFamily] if not RuleObject: continue RuleObject = RuleObject.Instantiate(self.Macros) RetVal[Type] = RuleObject for Ext in RuleObject.SourceFileExtList: RetVal[Ext] = RuleObject return RetVal def _ApplyBuildRule(self, File, FileType, BinaryFileList=None): if self._BuildTargets is None: self._IntroBuildTargetList = set() self._FinalBuildTargetList = set() self._BuildTargets = defaultdict(set) self._FileTypes = defaultdict(set) if not BinaryFileList: BinaryFileList = self.BinaryFileList SubDirectory = os.path.join(self.OutputDir, File.SubDir) if not os.path.exists(SubDirectory): CreateDirectory(SubDirectory) LastTarget = None RuleChain = set() SourceList = [File] Index = 0 # # Make sure to get build rule order value # self.BuildOption while Index < len(SourceList): Source = SourceList[Index] Index = Index + 1 if Source != File: CreateDirectory(Source.Dir) if File.IsBinary and File == Source and File in BinaryFileList: # Skip all files that are not binary libraries if not self.IsLibrary: continue RuleObject = self.BuildRules[TAB_DEFAULT_BINARY_FILE] elif FileType in self.BuildRules: RuleObject = self.BuildRules[FileType] elif Source.Ext in self.BuildRules: RuleObject = self.BuildRules[Source.Ext] else: # stop at no more rules if LastTarget: self._FinalBuildTargetList.add(LastTarget) break FileType = RuleObject.SourceFileType self._FileTypes[FileType].add(Source) # stop at STATIC_LIBRARY for library if self.IsLibrary and FileType == TAB_STATIC_LIBRARY: if LastTarget: self._FinalBuildTargetList.add(LastTarget) break Target = RuleObject.Apply(Source, self.BuildRuleOrder) if not Target: if LastTarget: self._FinalBuildTargetList.add(LastTarget) break elif not Target.Outputs: # Only do build for target with outputs self._FinalBuildTargetList.add(Target) self._BuildTargets[FileType].add(Target) if not Source.IsBinary and Source == File: self._IntroBuildTargetList.add(Target) # to avoid cyclic rule if FileType in RuleChain: break RuleChain.add(FileType) SourceList.extend(Target.Outputs) LastTarget = Target FileType = TAB_UNKNOWN_FILE @cached_property def Targets(self): if self._BuildTargets is None: self._IntroBuildTargetList = set() self._FinalBuildTargetList = set() self._BuildTargets = defaultdict(set) self._FileTypes = defaultdict(set) #TRICK: call SourceFileList property to apply build rule for source files self.SourceFileList #TRICK: call _GetBinaryFileList to apply build rule for binary files self.BinaryFileList return self._BuildTargets @cached_property def IntroTargetList(self): self.Targets return self._IntroBuildTargetList @cached_property def CodaTargetList(self): self.Targets return self._FinalBuildTargetList @cached_property def FileTypes(self): self.Targets return self._FileTypes ## Get the list of package object the module depends on # # @retval list The package object list # @cached_property def DependentPackageList(self): return self.Module.Packages ## Return the list of auto-generated code file # # @retval list The list of auto-generated file # @cached_property def AutoGenFileList(self): AutoGenUniIdf = self.BuildType != 'UEFI_HII' UniStringBinBuffer = BytesIO() IdfGenBinBuffer = BytesIO() RetVal = {} AutoGenC = TemplateString() AutoGenH = TemplateString() StringH = TemplateString() StringIdf = TemplateString() GenC.CreateCode(self, AutoGenC, AutoGenH, StringH, AutoGenUniIdf, UniStringBinBuffer, StringIdf, AutoGenUniIdf, IdfGenBinBuffer) # # AutoGen.c is generated if there are library classes in inf, or there are object files # if str(AutoGenC) != "" and (len(self.Module.LibraryClasses) > 0 or TAB_OBJECT_FILE in self.FileTypes): AutoFile = PathClass(gAutoGenCodeFileName, self.DebugDir) RetVal[AutoFile] = str(AutoGenC) self._ApplyBuildRule(AutoFile, TAB_UNKNOWN_FILE) if str(AutoGenH) != "": AutoFile = PathClass(gAutoGenHeaderFileName, self.DebugDir) RetVal[AutoFile] = str(AutoGenH) self._ApplyBuildRule(AutoFile, TAB_UNKNOWN_FILE) if str(StringH) != "": AutoFile = PathClass(gAutoGenStringFileName % {"module_name":self.Name}, self.DebugDir) RetVal[AutoFile] = str(StringH) self._ApplyBuildRule(AutoFile, TAB_UNKNOWN_FILE) if UniStringBinBuffer is not None and UniStringBinBuffer.getvalue() != b"": AutoFile = PathClass(gAutoGenStringFormFileName % {"module_name":self.Name}, self.OutputDir) RetVal[AutoFile] = UniStringBinBuffer.getvalue() AutoFile.IsBinary = True self._ApplyBuildRule(AutoFile, TAB_UNKNOWN_FILE) if UniStringBinBuffer is not None: UniStringBinBuffer.close() if str(StringIdf) != "": AutoFile = PathClass(gAutoGenImageDefFileName % {"module_name":self.Name}, self.DebugDir) RetVal[AutoFile] = str(StringIdf) self._ApplyBuildRule(AutoFile, TAB_UNKNOWN_FILE) if IdfGenBinBuffer is not None and IdfGenBinBuffer.getvalue() != b"": AutoFile = PathClass(gAutoGenIdfFileName % {"module_name":self.Name}, self.OutputDir) RetVal[AutoFile] = IdfGenBinBuffer.getvalue() AutoFile.IsBinary = True self._ApplyBuildRule(AutoFile, TAB_UNKNOWN_FILE) if IdfGenBinBuffer is not None: IdfGenBinBuffer.close() return RetVal ## Return the list of library modules explicitly or implicitly used by this module @cached_property def DependentLibraryList(self): # only merge library classes and PCD for non-library module if self.IsLibrary: return [] return self.PlatformInfo.ApplyLibraryInstance(self.Module) ## Get the list of PCDs from current module # # @retval list The list of PCD # @cached_property def ModulePcdList(self): # apply PCD settings from platform RetVal = self.PlatformInfo.ApplyPcdSetting(self.Module, self.Module.Pcds) ExtendCopyDictionaryLists(self._PcdComments, self.Module.PcdComments) return RetVal ## Get the list of PCDs from dependent libraries # # @retval list The list of PCD # @cached_property def LibraryPcdList(self): if self.IsLibrary: return [] RetVal = [] Pcds = set() # get PCDs from dependent libraries for Library in self.DependentLibraryList: PcdsInLibrary = OrderedDict() ExtendCopyDictionaryLists(self._PcdComments, Library.PcdComments) for Key in Library.Pcds: # skip duplicated PCDs if Key in self.Module.Pcds or Key in Pcds: continue Pcds.add(Key) PcdsInLibrary[Key] = copy.copy(Library.Pcds[Key]) RetVal.extend(self.PlatformInfo.ApplyPcdSetting(self.Module, PcdsInLibrary, Library=Library)) return RetVal ## Get the GUID value mapping # # @retval dict The mapping between GUID cname and its value # @cached_property def GuidList(self): RetVal = OrderedDict(self.Module.Guids) for Library in self.DependentLibraryList: RetVal.update(Library.Guids) ExtendCopyDictionaryLists(self._GuidComments, Library.GuidComments) ExtendCopyDictionaryLists(self._GuidComments, self.Module.GuidComments) return RetVal @cached_property def GetGuidsUsedByPcd(self): RetVal = OrderedDict(self.Module.GetGuidsUsedByPcd()) for Library in self.DependentLibraryList: RetVal.update(Library.GetGuidsUsedByPcd()) return RetVal ## Get the protocol value mapping # # @retval dict The mapping between protocol cname and its value # @cached_property def ProtocolList(self): RetVal = OrderedDict(self.Module.Protocols) for Library in self.DependentLibraryList: RetVal.update(Library.Protocols) ExtendCopyDictionaryLists(self._ProtocolComments, Library.ProtocolComments) ExtendCopyDictionaryLists(self._ProtocolComments, self.Module.ProtocolComments) return RetVal ## Get the PPI value mapping # # @retval dict The mapping between PPI cname and its value # @cached_property def PpiList(self): RetVal = OrderedDict(self.Module.Ppis) for Library in self.DependentLibraryList: RetVal.update(Library.Ppis) ExtendCopyDictionaryLists(self._PpiComments, Library.PpiComments) ExtendCopyDictionaryLists(self._PpiComments, self.Module.PpiComments) return RetVal ## Get the list of include search path # # @retval list The list path # @cached_property def IncludePathList(self): RetVal = [] RetVal.append(self.MetaFile.Dir) RetVal.append(self.DebugDir) for Package in self.Module.Packages: PackageDir = mws.join(self.WorkspaceDir, Package.MetaFile.Dir) if PackageDir not in RetVal: RetVal.append(PackageDir) IncludesList = Package.Includes if Package._PrivateIncludes: if not self.MetaFile.OriginalPath.Path.startswith(PackageDir): IncludesList = list(set(Package.Includes).difference(set(Package._PrivateIncludes))) for Inc in IncludesList: if Inc not in RetVal: RetVal.append(str(Inc)) return RetVal @cached_property def IncludePathLength(self): return sum(len(inc)+1 for inc in self.IncludePathList) ## Get HII EX PCDs which maybe used by VFR # # efivarstore used by VFR may relate with HII EX PCDs # Get the variable name and GUID from efivarstore and HII EX PCD # List the HII EX PCDs in As Built INF if both name and GUID match. # # @retval list HII EX PCDs # def _GetPcdsMaybeUsedByVfr(self): if not self.SourceFileList: return [] NameGuids = set() for SrcFile in self.SourceFileList: if SrcFile.Ext.lower() != '.vfr': continue Vfri = os.path.join(self.OutputDir, SrcFile.BaseName + '.i') if not os.path.exists(Vfri): continue VfriFile = open(Vfri, 'r') Content = VfriFile.read() VfriFile.close() Pos = Content.find('efivarstore') while Pos != -1: # # Make sure 'efivarstore' is the start of efivarstore statement # In case of the value of 'name' (name = efivarstore) is equal to 'efivarstore' # Index = Pos - 1 while Index >= 0 and Content[Index] in ' \t\r\n': Index -= 1 if Index >= 0 and Content[Index] != ';': Pos = Content.find('efivarstore', Pos + len('efivarstore')) continue # # 'efivarstore' must be followed by name and guid # Name = gEfiVarStoreNamePattern.search(Content, Pos) if not Name: break Guid = gEfiVarStoreGuidPattern.search(Content, Pos) if not Guid: break NameArray = _ConvertStringToByteArray('L"' + Name.group(1) + '"') NameGuids.add((NameArray, GuidStructureStringToGuidString(Guid.group(1)))) Pos = Content.find('efivarstore', Name.end()) if not NameGuids: return [] HiiExPcds = [] for Pcd in self.PlatformInfo.Platform.Pcds.values(): if Pcd.Type != TAB_PCDS_DYNAMIC_EX_HII: continue for SkuInfo in Pcd.SkuInfoList.values(): Value = GuidValue(SkuInfo.VariableGuid, self.PlatformInfo.PackageList, self.MetaFile.Path) if not Value: continue Name = _ConvertStringToByteArray(SkuInfo.VariableName) Guid = GuidStructureStringToGuidString(Value) if (Name, Guid) in NameGuids and Pcd not in HiiExPcds: HiiExPcds.append(Pcd) break return HiiExPcds def _GenOffsetBin(self): VfrUniBaseName = {} for SourceFile in self.Module.Sources: if SourceFile.Type.upper() == ".VFR" : # # search the .map file to find the offset of vfr binary in the PE32+/TE file. # VfrUniBaseName[SourceFile.BaseName] = (SourceFile.BaseName + "Bin") elif SourceFile.Type.upper() == ".UNI" : # # search the .map file to find the offset of Uni strings binary in the PE32+/TE file. # VfrUniBaseName["UniOffsetName"] = (self.Name + "Strings") if not VfrUniBaseName: return None MapFileName = os.path.join(self.OutputDir, self.Name + ".map") EfiFileName = os.path.join(self.OutputDir, self.Name + ".efi") VfrUniOffsetList = GetVariableOffset(MapFileName, EfiFileName, list(VfrUniBaseName.values())) if not VfrUniOffsetList: return None OutputName = '%sOffset.bin' % self.Name UniVfrOffsetFileName = os.path.join( self.OutputDir, OutputName) try: fInputfile = open(UniVfrOffsetFileName, "wb+", 0) except: EdkLogger.error("build", FILE_OPEN_FAILURE, "File open failed for %s" % UniVfrOffsetFileName, None) # Use a instance of BytesIO to cache data fStringIO = BytesIO() for Item in VfrUniOffsetList: if (Item[0].find("Strings") != -1): # # UNI offset in image. # GUID + Offset # { 0x8913c5e0, 0x33f6, 0x4d86, { 0x9b, 0xf1, 0x43, 0xef, 0x89, 0xfc, 0x6, 0x66 } } # UniGuid = b'\xe0\xc5\x13\x89\xf63\x86M\x9b\xf1C\xef\x89\xfc\x06f' fStringIO.write(UniGuid) UniValue = pack ('Q', int (Item[1], 16)) fStringIO.write (UniValue) else: # # VFR binary offset in image. # GUID + Offset # { 0xd0bc7cb4, 0x6a47, 0x495f, { 0xaa, 0x11, 0x71, 0x7, 0x46, 0xda, 0x6, 0xa2 } }; # VfrGuid = b'\xb4|\xbc\xd0Gj_I\xaa\x11q\x07F\xda\x06\xa2' fStringIO.write(VfrGuid) VfrValue = pack ('Q', int (Item[1], 16)) fStringIO.write (VfrValue) # # write data into file. # try : fInputfile.write (fStringIO.getvalue()) except: EdkLogger.error("build", FILE_WRITE_FAILURE, "Write data to file %s failed, please check whether the " "file been locked or using by other applications." %UniVfrOffsetFileName, None) fStringIO.close () fInputfile.close () return OutputName @cached_property def OutputFile(self): retVal = set() OutputDir = self.OutputDir.replace('\\', '/').strip('/') DebugDir = self.DebugDir.replace('\\', '/').strip('/') for Item in self.CodaTargetList: File = Item.Target.Path.replace('\\', '/').strip('/').replace(DebugDir, '').replace(OutputDir, '').strip('/') retVal.add(File) if self.DepexGenerated: retVal.add(self.Name + '.depex') Bin = self._GenOffsetBin() if Bin: retVal.add(Bin) for Root, Dirs, Files in os.walk(OutputDir): for File in Files: if File.lower().endswith('.pdb'): retVal.add(File) return retVal ## Create AsBuilt INF file the module # def CreateAsBuiltInf(self): if self.IsAsBuiltInfCreated: return # Skip INF file generation for libraries if self.IsLibrary: return # Skip the following code for modules with no source files if not self.SourceFileList: return # Skip the following code for modules without any binary files if self.BinaryFileList: return ### TODO: How to handles mixed source and binary modules # Find all DynamicEx and PatchableInModule PCDs used by this module and dependent libraries # Also find all packages that the DynamicEx PCDs depend on Pcds = [] PatchablePcds = [] Packages = [] PcdCheckList = [] PcdTokenSpaceList = [] for Pcd in self.ModulePcdList + self.LibraryPcdList: if Pcd.Type == TAB_PCDS_PATCHABLE_IN_MODULE: PatchablePcds.append(Pcd) PcdCheckList.append((Pcd.TokenCName, Pcd.TokenSpaceGuidCName, TAB_PCDS_PATCHABLE_IN_MODULE)) elif Pcd.Type in PCD_DYNAMIC_EX_TYPE_SET: if Pcd not in Pcds: Pcds.append(Pcd) PcdCheckList.append((Pcd.TokenCName, Pcd.TokenSpaceGuidCName, TAB_PCDS_DYNAMIC_EX)) PcdCheckList.append((Pcd.TokenCName, Pcd.TokenSpaceGuidCName, TAB_PCDS_DYNAMIC)) PcdTokenSpaceList.append(Pcd.TokenSpaceGuidCName) GuidList = OrderedDict(self.GuidList) for TokenSpace in self.GetGuidsUsedByPcd: # If token space is not referred by patch PCD or Ex PCD, remove the GUID from GUID list # The GUIDs in GUIDs section should really be the GUIDs in source INF or referred by Ex an patch PCDs if TokenSpace not in PcdTokenSpaceList and TokenSpace in GuidList: GuidList.pop(TokenSpace) CheckList = (GuidList, self.PpiList, self.ProtocolList, PcdCheckList) for Package in self.DerivedPackageList: if Package in Packages: continue BeChecked = (Package.Guids, Package.Ppis, Package.Protocols, Package.Pcds) Found = False for Index in range(len(BeChecked)): for Item in CheckList[Index]: if Item in BeChecked[Index]: Packages.append(Package) Found = True break if Found: break VfrPcds = self._GetPcdsMaybeUsedByVfr() for Pkg in self.PlatformInfo.PackageList: if Pkg in Packages: continue for VfrPcd in VfrPcds: if ((VfrPcd.TokenCName, VfrPcd.TokenSpaceGuidCName, TAB_PCDS_DYNAMIC_EX) in Pkg.Pcds or (VfrPcd.TokenCName, VfrPcd.TokenSpaceGuidCName, TAB_PCDS_DYNAMIC) in Pkg.Pcds): Packages.append(Pkg) break ModuleType = SUP_MODULE_DXE_DRIVER if self.ModuleType == SUP_MODULE_UEFI_DRIVER and self.DepexGenerated else self.ModuleType DriverType = self.PcdIsDriver if self.PcdIsDriver else '' Guid = self.Guid MDefs = self.Module.Defines AsBuiltInfDict = { 'module_name' : self.Name, 'module_guid' : Guid, 'module_module_type' : ModuleType, 'module_version_string' : [MDefs['VERSION_STRING']] if 'VERSION_STRING' in MDefs else [], 'pcd_is_driver_string' : [], 'module_uefi_specification_version' : [], 'module_pi_specification_version' : [], 'module_entry_point' : self.Module.ModuleEntryPointList, 'module_unload_image' : self.Module.ModuleUnloadImageList, 'module_constructor' : self.Module.ConstructorList, 'module_destructor' : self.Module.DestructorList, 'module_shadow' : [MDefs['SHADOW']] if 'SHADOW' in MDefs else [], 'module_pci_vendor_id' : [MDefs['PCI_VENDOR_ID']] if 'PCI_VENDOR_ID' in MDefs else [], 'module_pci_device_id' : [MDefs['PCI_DEVICE_ID']] if 'PCI_DEVICE_ID' in MDefs else [], 'module_pci_class_code' : [MDefs['PCI_CLASS_CODE']] if 'PCI_CLASS_CODE' in MDefs else [], 'module_pci_revision' : [MDefs['PCI_REVISION']] if 'PCI_REVISION' in MDefs else [], 'module_build_number' : [MDefs['BUILD_NUMBER']] if 'BUILD_NUMBER' in MDefs else [], 'module_spec' : [MDefs['SPEC']] if 'SPEC' in MDefs else [], 'module_uefi_hii_resource_section' : [MDefs['UEFI_HII_RESOURCE_SECTION']] if 'UEFI_HII_RESOURCE_SECTION' in MDefs else [], 'module_uni_file' : [MDefs['MODULE_UNI_FILE']] if 'MODULE_UNI_FILE' in MDefs else [], 'module_arch' : self.Arch, 'package_item' : [Package.MetaFile.File.replace('\\', '/') for Package in Packages], 'binary_item' : [], 'patchablepcd_item' : [], 'pcd_item' : [], 'protocol_item' : [], 'ppi_item' : [], 'guid_item' : [], 'flags_item' : [], 'libraryclasses_item' : [] } if 'MODULE_UNI_FILE' in MDefs: UNIFile = os.path.join(self.MetaFile.Dir, MDefs['MODULE_UNI_FILE']) if os.path.isfile(UNIFile): shutil.copy2(UNIFile, self.OutputDir) if self.AutoGenVersion > int(gInfSpecVersion, 0): AsBuiltInfDict['module_inf_version'] = '0x%08x' % self.AutoGenVersion else: AsBuiltInfDict['module_inf_version'] = gInfSpecVersion if DriverType: AsBuiltInfDict['pcd_is_driver_string'].append(DriverType) if 'UEFI_SPECIFICATION_VERSION' in self.Specification: AsBuiltInfDict['module_uefi_specification_version'].append(self.Specification['UEFI_SPECIFICATION_VERSION']) if 'PI_SPECIFICATION_VERSION' in self.Specification: AsBuiltInfDict['module_pi_specification_version'].append(self.Specification['PI_SPECIFICATION_VERSION']) OutputDir = self.OutputDir.replace('\\', '/').strip('/') DebugDir = self.DebugDir.replace('\\', '/').strip('/') for Item in self.CodaTargetList: File = Item.Target.Path.replace('\\', '/').strip('/').replace(DebugDir, '').replace(OutputDir, '').strip('/') if os.path.isabs(File): File = File.replace('\\', '/').strip('/').replace(OutputDir, '').strip('/') if Item.Target.Ext.lower() == '.aml': AsBuiltInfDict['binary_item'].append('ASL|' + File) elif Item.Target.Ext.lower() == '.acpi': AsBuiltInfDict['binary_item'].append('ACPI|' + File) elif Item.Target.Ext.lower() == '.efi': AsBuiltInfDict['binary_item'].append('PE32|' + self.Name + '.efi') else: AsBuiltInfDict['binary_item'].append('BIN|' + File) if not self.DepexGenerated: DepexFile = os.path.join(self.OutputDir, self.Name + '.depex') if os.path.exists(DepexFile): self.DepexGenerated = True if self.DepexGenerated: if self.ModuleType in [SUP_MODULE_PEIM]: AsBuiltInfDict['binary_item'].append('PEI_DEPEX|' + self.Name + '.depex') elif self.ModuleType in [SUP_MODULE_DXE_DRIVER, SUP_MODULE_DXE_RUNTIME_DRIVER, SUP_MODULE_DXE_SAL_DRIVER, SUP_MODULE_UEFI_DRIVER]: AsBuiltInfDict['binary_item'].append('DXE_DEPEX|' + self.Name + '.depex') elif self.ModuleType in [SUP_MODULE_DXE_SMM_DRIVER]: AsBuiltInfDict['binary_item'].append('SMM_DEPEX|' + self.Name + '.depex') Bin = self._GenOffsetBin() if Bin: AsBuiltInfDict['binary_item'].append('BIN|%s' % Bin) for Root, Dirs, Files in os.walk(OutputDir): for File in Files: if File.lower().endswith('.pdb'): AsBuiltInfDict['binary_item'].append('DISPOSABLE|' + File) HeaderComments = self.Module.HeaderComments StartPos = 0 for Index in range(len(HeaderComments)): if HeaderComments[Index].find('@BinaryHeader') != -1: HeaderComments[Index] = HeaderComments[Index].replace('@BinaryHeader', '@file') StartPos = Index break AsBuiltInfDict['header_comments'] = '\n'.join(HeaderComments[StartPos:]).replace(':#', '://') AsBuiltInfDict['tail_comments'] = '\n'.join(self.Module.TailComments) GenList = [ (self.ProtocolList, self._ProtocolComments, 'protocol_item'), (self.PpiList, self._PpiComments, 'ppi_item'), (GuidList, self._GuidComments, 'guid_item') ] for Item in GenList: for CName in Item[0]: Comments = '\n '.join(Item[1][CName]) if CName in Item[1] else '' Entry = Comments + '\n ' + CName if Comments else CName AsBuiltInfDict[Item[2]].append(Entry) PatchList = parsePcdInfoFromMapFile( os.path.join(self.OutputDir, self.Name + '.map'), os.path.join(self.OutputDir, self.Name + '.efi') ) if PatchList: for Pcd in PatchablePcds: TokenCName = Pcd.TokenCName for PcdItem in GlobalData.MixedPcd: if (Pcd.TokenCName, Pcd.TokenSpaceGuidCName) in GlobalData.MixedPcd[PcdItem]: TokenCName = PcdItem[0] break for PatchPcd in PatchList: if TokenCName == PatchPcd[0]: break else: continue PcdValue = '' if Pcd.DatumType == 'BOOLEAN': BoolValue = Pcd.DefaultValue.upper() if BoolValue == 'TRUE': Pcd.DefaultValue = '1' elif BoolValue == 'FALSE': Pcd.DefaultValue = '0' if Pcd.DatumType in TAB_PCD_NUMERIC_TYPES: HexFormat = '0x%02x' if Pcd.DatumType == TAB_UINT16: HexFormat = '0x%04x' elif Pcd.DatumType == TAB_UINT32: HexFormat = '0x%08x' elif Pcd.DatumType == TAB_UINT64: HexFormat = '0x%016x' PcdValue = HexFormat % int(Pcd.DefaultValue, 0) else: if Pcd.MaxDatumSize is None or Pcd.MaxDatumSize == '': EdkLogger.error("build", AUTOGEN_ERROR, "Unknown [MaxDatumSize] of PCD [%s.%s]" % (Pcd.TokenSpaceGuidCName, TokenCName) ) ArraySize = int(Pcd.MaxDatumSize, 0) PcdValue = Pcd.DefaultValue if PcdValue[0] != '{': Unicode = False if PcdValue[0] == 'L': Unicode = True PcdValue = PcdValue.lstrip('L') PcdValue = eval(PcdValue) NewValue = '{' for Index in range(0, len(PcdValue)): if Unicode: CharVal = ord(PcdValue[Index]) NewValue = NewValue + '0x%02x' % (CharVal & 0x00FF) + ', ' \ + '0x%02x' % (CharVal >> 8) + ', ' else: NewValue = NewValue + '0x%02x' % (ord(PcdValue[Index]) % 0x100) + ', ' Padding = '0x00, ' if Unicode: Padding = Padding * 2 ArraySize = ArraySize // 2 if ArraySize < (len(PcdValue) + 1): if Pcd.MaxSizeUserSet: EdkLogger.error("build", AUTOGEN_ERROR, "The maximum size of VOID* type PCD '%s.%s' is less than its actual size occupied." % (Pcd.TokenSpaceGuidCName, TokenCName) ) else: ArraySize = len(PcdValue) + 1 if ArraySize > len(PcdValue) + 1: NewValue = NewValue + Padding * (ArraySize - len(PcdValue) - 1) PcdValue = NewValue + Padding.strip().rstrip(',') + '}' elif len(PcdValue.split(',')) <= ArraySize: PcdValue = PcdValue.rstrip('}') + ', 0x00' * (ArraySize - len(PcdValue.split(','))) PcdValue += '}' else: if Pcd.MaxSizeUserSet: EdkLogger.error("build", AUTOGEN_ERROR, "The maximum size of VOID* type PCD '%s.%s' is less than its actual size occupied." % (Pcd.TokenSpaceGuidCName, TokenCName) ) else: ArraySize = len(PcdValue) + 1 PcdItem = '%s.%s|%s|0x%X' % \ (Pcd.TokenSpaceGuidCName, TokenCName, PcdValue, PatchPcd[1]) PcdComments = '' if (Pcd.TokenSpaceGuidCName, Pcd.TokenCName) in self._PcdComments: PcdComments = '\n '.join(self._PcdComments[Pcd.TokenSpaceGuidCName, Pcd.TokenCName]) if PcdComments: PcdItem = PcdComments + '\n ' + PcdItem AsBuiltInfDict['patchablepcd_item'].append(PcdItem) for Pcd in Pcds + VfrPcds: PcdCommentList = [] HiiInfo = '' TokenCName = Pcd.TokenCName for PcdItem in GlobalData.MixedPcd: if (Pcd.TokenCName, Pcd.TokenSpaceGuidCName) in GlobalData.MixedPcd[PcdItem]: TokenCName = PcdItem[0] break if Pcd.Type == TAB_PCDS_DYNAMIC_EX_HII: for SkuName in Pcd.SkuInfoList: SkuInfo = Pcd.SkuInfoList[SkuName] HiiInfo = '## %s|%s|%s' % (SkuInfo.VariableName, SkuInfo.VariableGuid, SkuInfo.VariableOffset) break if (Pcd.TokenSpaceGuidCName, Pcd.TokenCName) in self._PcdComments: PcdCommentList = self._PcdComments[Pcd.TokenSpaceGuidCName, Pcd.TokenCName][:] if HiiInfo: UsageIndex = -1 UsageStr = '' for Index, Comment in enumerate(PcdCommentList): for Usage in UsageList: if Comment.find(Usage) != -1: UsageStr = Usage UsageIndex = Index break if UsageIndex != -1: PcdCommentList[UsageIndex] = '## %s %s %s' % (UsageStr, HiiInfo, PcdCommentList[UsageIndex].replace(UsageStr, '')) else: PcdCommentList.append('## UNDEFINED ' + HiiInfo) PcdComments = '\n '.join(PcdCommentList) PcdEntry = Pcd.TokenSpaceGuidCName + '.' + TokenCName if PcdComments: PcdEntry = PcdComments + '\n ' + PcdEntry AsBuiltInfDict['pcd_item'].append(PcdEntry) for Item in self.BuildOption: if 'FLAGS' in self.BuildOption[Item]: AsBuiltInfDict['flags_item'].append('%s:%s_%s_%s_%s_FLAGS = %s' % (self.ToolChainFamily, self.BuildTarget, self.ToolChain, self.Arch, Item, self.BuildOption[Item]['FLAGS'].strip())) # Generated LibraryClasses section in comments. for Library in self.LibraryAutoGenList: AsBuiltInfDict['libraryclasses_item'].append(Library.MetaFile.File.replace('\\', '/')) # Generated UserExtensions TianoCore section. # All tianocore user extensions are copied. UserExtStr = '' for TianoCore in self._GetTianoCoreUserExtensionList(): UserExtStr += '\n'.join(TianoCore) ExtensionFile = os.path.join(self.MetaFile.Dir, TianoCore[1]) if os.path.isfile(ExtensionFile): shutil.copy2(ExtensionFile, self.OutputDir) AsBuiltInfDict['userextension_tianocore_item'] = UserExtStr # Generated depex expression section in comments. DepexExpression = self._GetDepexExpresionString() AsBuiltInfDict['depexsection_item'] = DepexExpression if DepexExpression else '' AsBuiltInf = TemplateString() AsBuiltInf.Append(gAsBuiltInfHeaderString.Replace(AsBuiltInfDict)) SaveFileOnChange(os.path.join(self.OutputDir, self.Name + '.inf'), str(AsBuiltInf), False) self.IsAsBuiltInfCreated = True def CopyModuleToCache(self): FileDir = path.join(GlobalData.gBinCacheDest, self.PlatformInfo.OutputDir, self.BuildTarget + "_" + self.ToolChain, self.Arch, self.SourceDir, self.MetaFile.BaseName) CreateDirectory (FileDir) HashFile = path.join(self.BuildDir, self.Name + '.hash') if os.path.exists(HashFile): CopyFileOnChange(HashFile, FileDir) ModuleFile = path.join(self.OutputDir, self.Name + '.inf') if os.path.exists(ModuleFile): CopyFileOnChange(ModuleFile, FileDir) if not self.OutputFile: Ma = self.BuildDatabase[self.MetaFile, self.Arch, self.BuildTarget, self.ToolChain] self.OutputFile = Ma.Binaries for File in self.OutputFile: File = str(File) if not os.path.isabs(File): File = os.path.join(self.OutputDir, File) if os.path.exists(File): sub_dir = os.path.relpath(File, self.OutputDir) destination_file = os.path.join(FileDir, sub_dir) destination_dir = os.path.dirname(destination_file) CreateDirectory(destination_dir) CopyFileOnChange(File, destination_dir) def AttemptModuleCacheCopy(self): # If library or Module is binary do not skip by hash if self.IsBinaryModule: return False # .inc is contains binary information so do not skip by hash as well for f_ext in self.SourceFileList: if '.inc' in str(f_ext): return False FileDir = path.join(GlobalData.gBinCacheSource, self.PlatformInfo.OutputDir, self.BuildTarget + "_" + self.ToolChain, self.Arch, self.SourceDir, self.MetaFile.BaseName) HashFile = path.join(FileDir, self.Name + '.hash') if os.path.exists(HashFile): f = open(HashFile, 'r') CacheHash = f.read() f.close() self.GenModuleHash() if GlobalData.gModuleHash[self.Arch][self.Name]: if CacheHash == GlobalData.gModuleHash[self.Arch][self.Name]: for root, dir, files in os.walk(FileDir): for f in files: if self.Name + '.hash' in f: CopyFileOnChange(HashFile, self.BuildDir) else: File = path.join(root, f) sub_dir = os.path.relpath(File, FileDir) destination_file = os.path.join(self.OutputDir, sub_dir) destination_dir = os.path.dirname(destination_file) CreateDirectory(destination_dir) CopyFileOnChange(File, destination_dir) if self.Name == "PcdPeim" or self.Name == "PcdDxe": CreatePcdDatabaseCode(self, TemplateString(), TemplateString()) return True return False ## Create makefile for the module and its dependent libraries # # @param CreateLibraryMakeFile Flag indicating if or not the makefiles of # dependent libraries will be created # @cached_class_function def CreateMakeFile(self, CreateLibraryMakeFile=True, GenFfsList = []): # nest this function inside its only caller. def CreateTimeStamp(): FileSet = {self.MetaFile.Path} for SourceFile in self.Module.Sources: FileSet.add (SourceFile.Path) for Lib in self.DependentLibraryList: FileSet.add (Lib.MetaFile.Path) for f in self.AutoGenDepSet: FileSet.add (f.Path) if os.path.exists (self.TimeStampPath): os.remove (self.TimeStampPath) with open(self.TimeStampPath, 'w+') as file: for f in FileSet: print(f, file=file) # Ignore generating makefile when it is a binary module if self.IsBinaryModule: return self.GenFfsList = GenFfsList if not self.IsLibrary and CreateLibraryMakeFile: for LibraryAutoGen in self.LibraryAutoGenList: LibraryAutoGen.CreateMakeFile() # Don't enable if hash feature enabled, CanSkip uses timestamps to determine build skipping if not GlobalData.gUseHashCache and self.CanSkip(): return if len(self.CustomMakefile) == 0: Makefile = GenMake.ModuleMakefile(self) else: Makefile = GenMake.CustomMakefile(self) if Makefile.Generate(): EdkLogger.debug(EdkLogger.DEBUG_9, "Generated makefile for module %s [%s]" % (self.Name, self.Arch)) else: EdkLogger.debug(EdkLogger.DEBUG_9, "Skipped the generation of makefile for module %s [%s]" % (self.Name, self.Arch)) CreateTimeStamp() def CopyBinaryFiles(self): for File in self.Module.Binaries: SrcPath = File.Path DstPath = os.path.join(self.OutputDir, os.path.basename(SrcPath)) CopyLongFilePath(SrcPath, DstPath) ## Create autogen code for the module and its dependent libraries # # @param CreateLibraryCodeFile Flag indicating if or not the code of # dependent libraries will be created # def CreateCodeFile(self, CreateLibraryCodeFile=True): if self.IsCodeFileCreated: return # Need to generate PcdDatabase even PcdDriver is binarymodule if self.IsBinaryModule and self.PcdIsDriver != '': CreatePcdDatabaseCode(self, TemplateString(), TemplateString()) return if self.IsBinaryModule: if self.IsLibrary: self.CopyBinaryFiles() return if not self.IsLibrary and CreateLibraryCodeFile: for LibraryAutoGen in self.LibraryAutoGenList: LibraryAutoGen.CreateCodeFile() # Don't enable if hash feature enabled, CanSkip uses timestamps to determine build skipping if not GlobalData.gUseHashCache and self.CanSkip(): return AutoGenList = [] IgoredAutoGenList = [] for File in self.AutoGenFileList: if GenC.Generate(File.Path, self.AutoGenFileList[File], File.IsBinary): AutoGenList.append(str(File)) else: IgoredAutoGenList.append(str(File)) for ModuleType in self.DepexList: # Ignore empty [depex] section or [depex] section for SUP_MODULE_USER_DEFINED module if len(self.DepexList[ModuleType]) == 0 or ModuleType == SUP_MODULE_USER_DEFINED or ModuleType == SUP_MODULE_HOST_APPLICATION: continue Dpx = GenDepex.DependencyExpression(self.DepexList[ModuleType], ModuleType, True) DpxFile = gAutoGenDepexFileName % {"module_name" : self.Name} if len(Dpx.PostfixNotation) != 0: self.DepexGenerated = True if Dpx.Generate(path.join(self.OutputDir, DpxFile)): AutoGenList.append(str(DpxFile)) else: IgoredAutoGenList.append(str(DpxFile)) if IgoredAutoGenList == []: EdkLogger.debug(EdkLogger.DEBUG_9, "Generated [%s] files for module %s [%s]" % (" ".join(AutoGenList), self.Name, self.Arch)) elif AutoGenList == []: EdkLogger.debug(EdkLogger.DEBUG_9, "Skipped the generation of [%s] files for module %s [%s]" % (" ".join(IgoredAutoGenList), self.Name, self.Arch)) else: EdkLogger.debug(EdkLogger.DEBUG_9, "Generated [%s] (skipped %s) files for module %s [%s]" % (" ".join(AutoGenList), " ".join(IgoredAutoGenList), self.Name, self.Arch)) self.IsCodeFileCreated = True return AutoGenList ## Summarize the ModuleAutoGen objects of all libraries used by this module @cached_property def LibraryAutoGenList(self): RetVal = [] for Library in self.DependentLibraryList: La = ModuleAutoGen( self.Workspace, Library.MetaFile, self.BuildTarget, self.ToolChain, self.Arch, self.PlatformInfo.MetaFile ) if La not in RetVal: RetVal.append(La) for Lib in La.CodaTargetList: self._ApplyBuildRule(Lib.Target, TAB_UNKNOWN_FILE) return RetVal def GenModuleHash(self): # Initialize a dictionary for each arch type if self.Arch not in GlobalData.gModuleHash: GlobalData.gModuleHash[self.Arch] = {} # Early exit if module or library has been hashed and is in memory if self.Name in GlobalData.gModuleHash[self.Arch]: return GlobalData.gModuleHash[self.Arch][self.Name].encode('utf-8') # Initialze hash object m = hashlib.md5() # Add Platform level hash m.update(GlobalData.gPlatformHash.encode('utf-8')) # Add Package level hash if self.DependentPackageList: for Pkg in sorted(self.DependentPackageList, key=lambda x: x.PackageName): if Pkg.PackageName in GlobalData.gPackageHash: m.update(GlobalData.gPackageHash[Pkg.PackageName].encode('utf-8')) # Add Library hash if self.LibraryAutoGenList: for Lib in sorted(self.LibraryAutoGenList, key=lambda x: x.Name): if Lib.Name not in GlobalData.gModuleHash[self.Arch]: Lib.GenModuleHash() m.update(GlobalData.gModuleHash[self.Arch][Lib.Name].encode('utf-8')) # Add Module self f = open(str(self.MetaFile), 'rb') Content = f.read() f.close() m.update(Content) # Add Module's source files if self.SourceFileList: for File in sorted(self.SourceFileList, key=lambda x: str(x)): f = open(str(File), 'rb') Content = f.read() f.close() m.update(Content) GlobalData.gModuleHash[self.Arch][self.Name] = m.hexdigest() return GlobalData.gModuleHash[self.Arch][self.Name].encode('utf-8') ## Decide whether we can skip the ModuleAutoGen process def CanSkipbyHash(self): # Hashing feature is off if not GlobalData.gUseHashCache: return False # Initialize a dictionary for each arch type if self.Arch not in GlobalData.gBuildHashSkipTracking: GlobalData.gBuildHashSkipTracking[self.Arch] = dict() # If library or Module is binary do not skip by hash if self.IsBinaryModule: return False # .inc is contains binary information so do not skip by hash as well for f_ext in self.SourceFileList: if '.inc' in str(f_ext): return False # Use Cache, if exists and if Module has a copy in cache if GlobalData.gBinCacheSource and self.AttemptModuleCacheCopy(): return True # Early exit for libraries that haven't yet finished building HashFile = path.join(self.BuildDir, self.Name + ".hash") if self.IsLibrary and not os.path.exists(HashFile): return False # Return a Boolean based on if can skip by hash, either from memory or from IO. if self.Name not in GlobalData.gBuildHashSkipTracking[self.Arch]: # If hashes are the same, SaveFileOnChange() will return False. GlobalData.gBuildHashSkipTracking[self.Arch][self.Name] = not SaveFileOnChange(HashFile, self.GenModuleHash(), True) return GlobalData.gBuildHashSkipTracking[self.Arch][self.Name] else: return GlobalData.gBuildHashSkipTracking[self.Arch][self.Name] ## Decide whether we can skip the ModuleAutoGen process # If any source file is newer than the module than we cannot skip # def CanSkip(self): if self.MakeFileDir in GlobalData.gSikpAutoGenCache: return True if not os.path.exists(self.TimeStampPath): return False #last creation time of the module DstTimeStamp = os.stat(self.TimeStampPath)[8] SrcTimeStamp = self.Workspace._SrcTimeStamp if SrcTimeStamp > DstTimeStamp: return False with open(self.TimeStampPath,'r') as f: for source in f: source = source.rstrip('\n') if not os.path.exists(source): return False if source not in ModuleAutoGen.TimeDict : ModuleAutoGen.TimeDict[source] = os.stat(source)[8] if ModuleAutoGen.TimeDict[source] > DstTimeStamp: return False GlobalData.gSikpAutoGenCache.add(self.MakeFileDir) return True @cached_property def TimeStampPath(self): return os.path.join(self.MakeFileDir, 'AutoGenTimeStamp')